APS Fellowship

The Division is able to elect each year one-half of one percent of the current membership. Nominations may be made at any time, but only those received by the deadline will be considered for action in that year.

Gray arrow DCMP Deadline for APS Fellowship Nomination: Monday, February 1, 2016
Gray arrow APS Fellowship Information

APS Fellows Nominated by DCMP  

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Abanov, Alexander G. [2016]
State University of New York - Stony Brook
Citation: For pioneering contributions to electronic condensed matter physics using topological and hydrodynamic methods.


Abanov, Artem [2015]
Texas A&M University
Citation: For contributions to the theory of quantum phase transitions, in particular for the interaction of electrons with spin fluctuations.


Abbamonte, Peter [2014]
University of Illinois, Urbana-Champaign
Citation: Not available


Abrahams, Sidney Cyril [1981]
Bell Laboratories
Citation: Not available


Abrikosov, Alexei A. [1992]
Argonne National Laboratory
Citation: For his predictions of the existence and properties of the vortex state in type-II superconductors.


Abstreiter, Gerhard [1991]
Technical University of Muenchen
Citation: For far-infrared and Raman scattering studies of two-dimensional electron systems and of the physics of Si/SixGe1-x superlattices.


Ackerson, Bruce [2007]
Oklahoma State University
Citation: For theoretical and experimental advances in the physics of colloidal liquids and crystals.


Adams, Earnest D [1972]
University of Florida
Citation: Not available


Adams, Peter D [1972]
Brookhaven National Laboratory
Citation: Not available


Adams, Philip Wayne [2006]
Louisiana State University
Citation: For his major contributions to the understanding of high field superconductivity and two dimensional electron localization.


Adler, David [1972]
Massachusetts Institute of Technology
Citation: Not available


Aeppli, Gabriel [1997]
NEC Research Institute
Citation: For contributions to the understanding of highly correlated electron systems and exotic superconductors using neutron scattering.


Affleck, Ian Keith [2002]
Boston University
Citation: For important theoretical contributions to quantum magnetism and quantum impurities, and for the prediction of possible flux phases in the high temperature superconductors.


Aggarwal, Roshan L. [1977]
Massachusetts Institute of Technology
Citation: Not available


Agranovich, Vladimir M. [2009]
UTD NanoTech Institute
Citation: For contributions to the quantum theory of polaritons and excitons.


Aharony, Amnon [1985]
Ben-Gurion University of the Negev
Citation: For contributions to the theory of new critical and multicritical points, of random field systems and their experimental realization and of using fractals in statistical physics and in percolation.


Ahlers, Guenter [1971]
Bell Laboratories
Citation: Not available


Ailion, David Charles [1990]
University of Utah
Citation: For many contributions to the development in NMR techniques for application to condensed-matter physics.


Aizenberg, Joanna [2012]
Harvard University
Citation: For research in biomineralization and the control of templated nucleation and growth of crystals


Aleiner, Igor [2008]
Columbia University
Citation: For important contributions to the theory of low-dimensional and mesoscopic conductors.


Alers, George Armand [1985]
No Company Provided
Citation: For applying ultrasonic waves to a wide variety of basic physics and engineering problems in order to provide new insights into the properties of solid matter.


Alexandrov, Alexandre [2008]
Loughborough University
Citation: For important and broad-ranging contributions to the theory of correlated electron systems.


Alfano, Robert R [1975]
City College of New York
Citation: Also approved by the Division of Biological Physics.


Allen, James Ward [1989]
University of Michigan, Ann Arbor
Citation: For his work in electron spectroscopy, which his helped to develop an understanding of electron correlations in rare-earth materials and transition-metal oxides.


Allen, Phillip B. [1986]
State University of New York, Stony Brook
Citation: For contributions to the theory of electron-phonon effects in metals and semiconductors.


Allen, Silas James, Jr. [1986]
University of California, Santa Barbara
Citation: For creative far-infrared spectroscopy that elucidated the physics of transport in 2-dimensional electron systems; diffusion in superionic conductors, and spin-lattice interactions in magnetic insulators.


Allgaier, Robert S [1972]
Naval Ordnance Lab
Citation: Not available


Alloul, Henri [2007]
University of Paris, Sud
Citation: For nuclear magnetic resonance studies of strongly correlated electronic materials including the pseudogap phase of the cuprates through Knight shift measurements, local magnetic moments in cuprates, and studies of Kondo effect and spin-glasses.


Altarelli, Massimo [1993]
Affiliation not available
Citation: For pioneering work on the band structure of semiconductors, in particular the theory of impurity levels and excitons.


Altman, Michael [2014]
Hong Kong University of Science & Technology
Citation: For development and use of spin polarized low energy electron microscopy to understand surface processes of solids.


Altshuler, Boris L. [1992]
Affiliation not available
Citation: For his work on the theory of transport in disordered and mesoscopic systems.


Amer, Nabil M. [1987]
Affiliation not available
Citation: For developing the novel and versatile technique of photothermal spectroscopy, and for applying it to advance our understanding of amorphous semiconductors and the physics of surface and interfaces.


Andelman, David [2004]
Tel Aviv University
Citation: For definitive theoretical contributions to a broad range of problems in soft condensed matter, including monolayers, surfactant solutions and polyelectrolyte solutions.


Andersen, Ole K. [1993]
Affiliation not available
Citation: For invention and continued development of the Linear Muffin Tin Orbital method of calculating electronic structures of solids and, from them, thermodynamic properties using total energy techniques.


Anderson, Ansel Cochran [1969]
Affiliation not available
Citation: Not available


Anderson, Charles H [1972]
RCA Laboratories
Citation: Not available


Anderson, Elemer E [1974]
Clarckson College of Technology
Citation: Not available


Ando, Tsuneya [1985]
Tokyo Institute of Technology
Citation: For leading contributions to the theory of two-dimensional electron systems and their properties in magnetic fields.


Andrei, Eva Y [2003]
Rutgers University
Citation: For outstanding contributions to the experimental study of vortex matter and two-dimensional electron systems, including Wigner lattices.


Andrei, Natan [2004]
Rutgers University
Citation: For elucidating the many-body effects of several condensed matter systems, in particular the Kondo model, by discovering and studying their exact solutions.


Andres, Klaus [1987]
Walther Meissner Inst
Citation: For pioneering experiments in nuclear magnetic cooling which led to the discovery of new compounds for achieving ultralow temperature using adiabatic demagnetization.


Andrew, Edward Raymond [1989]
Affiliation not available
Citation: For his contributions to NMR studies in solids, the development of the magic angle spinning technique, and the use of NMR for medical purposes.


Ansermet, Jean-Philippe [2011]
Ecole Polytechnique Federale de Lausanne
Citation: For research on spintronics in metallic systems and magnetic nanowires.


Appelbaum, Ian [2016]
University of Maryland, College Park
Citation: For advancing the study of spin-polarized electron transport in semiconductors, especially the fundamental processes revealed by coherent and time-resolved spin transport over macroscopic distances in silicon and germanium.


Arakawa, Edward T [1981]
Oak Ridge National Laboratory
Citation: Not available


Argyriou, Dimitri [2008]
Hahn-Meitner Inst Berlin
Citation: For important applications of neutron and x-ray scattering which reveal the relationships between crystal and magnetic structure and physical properties in perovskite-based CMR.


Arko, Aloysius John [1989]
Affiliation not available
Citation: For his research on the electronic properties of novel materials, in particular his Fermi-surface studies in strongly correlated metals.


Aronson, Igor Samuel [2001]
Argonne National Laboratory
Citation: For important theoretical contributions to dynamics of far-from-equilibrium systems, and applications of novel methods of nonlinear dynamics to condensed matter physics.


Aronson, Meigan Charlotte [2000]
University of Michigan
Citation: For investigation of collective phenomena in strongly correlated electron systems using neutron scattering and high pressure techniques.


Arovas, Daniel [2015]
University of California, San Diego
Citation: For contributions to the theory of quantum magnetism, including novel large-N generalizations, valence bond solid and double exchange systems, and for pioneering work in the theory of fractional statistics.


Ascarelli, Gianni [1982]
Affiliation not available
Citation: Not available


Ashcroft, Neil W [1976]
Cornell University
Citation: Not available


Ashoori, Raymond C. [2009]
Massachusetts Institute of Technology
Citation: For the development of imaging techniques that reveal the physical properties of reduced-dimensional electronic systems.


Averin, Dmetri V [2004]
State University of New York, Stony Brook
Citation: For seminal contributions to the theory of single-charge-tunneling and mesoscopic effects in metallic, semiconductor, and superconductor junctions, and their applications to quantum information processing.


Averitt, Richard [2016]
University of California, San Diego
Citation: For his pioneering experimental study of the electrodynamics of correlated electron materials and metamaterials.


Avishai, Yshai [2004]
Ben-Gurion University of the Negev
Citation: For important contributions to the physics of electron transport in low dimensional systems and quantum dots, including the effects of disorder, interactions and external magnetic fields.


Awschalom, David D. [1992]
University of California, Santa Barbara
Citation: For his study of the novel magnetic properties of low-dimensional semi-conductor systems.


Azbel, Mark Ya [1986]
Tel Aviv University
Citation: For his contribution to the Azbel-Kaner cyclotron resonance method, his elucidation of the complex spectrum of Bloch electrons in magnetic field, and his theoretical work on DNA denaturation and transport through finite random structures.


Bachrach, Robert Z [1977]
Xerox Palo Alto Research Center
Citation: Not available


Bader, Samuel David [1990]
Argonne National Laboratory
Citation: For wide-ranging and innovative contributions to the understanding of physical phenomena in magnetism superconductivity, surfaces, and interfaces.


Bak, Per [1993]
Affiliation not available
Citation: For work on the theory of phase transitions and quasicrystals, and the proposal of self-organized criticality.


Balatsky, Alexander Vasilievich [2003]
Los Alamos National Laboratory
Citation: For insightful theory of strongly correlated states of matter, particularly unconventional superconductivity and the prediction of impurity-induced quasiparticle bound states.


Baldereschi, Alfonso [1993]
Affiliation not available
Citation: For his fundamental contributions to the theory of electronic states in solids, and in particular for the development of widely used methods for the calculation of electronic structure.


Balents, Leon M. [2013]
University of California, Santa Barbara
Citation: For the theory of new topological quantum phases of electrons in condensed matter.


Balibar, Sebastien [2005]
Ecole Normale Superieure
Citation: For the observation and analysis of the roughening transitions and quantum growth dynamicsin helium crystals, and for the discoveries of quantum evaporation, quantum cavitation and acoustic crystallization.


Balicas, Luis M. [2012]
Florida State University
Citation: For experimental studies of unconventional superconductors, heavy fermion materials, and frustrated magnetic systems


Banavar, Jayanth R. [1994]
University of Maryland
Citation: For studies of spin glasses, porous media and fluids.


Bao, Wei [2012]
Renmin University of China
Citation: For neutron scattering studies of the magnetic structure and spin dynamics of highly correlated electron systems


Barabasi, Albert Laszlo [2003]
University of Notre Dame
Citation: For his discovery of scale-free networks and for his theories of surface roughening and strained surfaces.


Baraff, Gene A [1972]
Bell Laboratories
Citation: Not available


Baranger, Harold [2007]
Duke University
Citation: For contributions to mesoscopic and nanoscale physics, especially the manifestations of classical chaos in quantum properties and the interplay of quantum interference and electron-electron interactions.


Baratoff, Alexis [2007]
University of Basel
Citation: For fundamental contributions to the theory of tunneling in superconductors and in scanning probe microscopes.


Bartram, Ralph H [1977]
University of Connecticut
Citation: Not available


Bartynski, Robert Allen [2004]
Rutgers University
Citation: For pioneering experiments to determine the electronic properties of surfaces, especially for leadership in developing Auger Photoelectron Coincidence Spectroscopy (APECS) with synchrotron radiation as a tool for local electronic structure.


Baskerville-Bridges, Frank George [2002]
University of California, Santa Cruz
Citation: For important innovations in EXAFS techniques leading to improved understanding of local structure and correlated atomic displacements.


Basov, Dmitri N. [2005]
University of California, San Diego
Citation: For his significant contributions to our understanding of high temperature superconductors and other correlated electron systems using infrared and optical spectroscopy.


Bass, Jack [1975]
Michigan State University
Citation: Not available


Bassani, G Franco [1982]
Scuola Normale Superiore
Citation: Not available


Bastard, Gerald [1993]
Affiliation not available
Citation: For many valuable contributions to the theory of semiconductor heterostructures.


Bates, Clayton W, Jr. [1982]
Affiliation not available
Citation: Not available


Bates, John Bryant [1983]
No Company Provided
Citation: For infrared and Raman spectroscopy studies on the intrinsic and extrinsic properties of molecular and ionic solids and for contributions to the understanding of fast ionic transport in superionic conductors.


Batista, Cristian D. [2014]
Los Alamos National Laboratory
Citation: For theoretical contributions to the understanding of frustrated magnetic systems, topological phases, and electronic ferroelectricity.


Batlogg, Bertram [1986]
ETH Zurich
Citation: For contributions to the understanding of f-element compounds, particularly the mixed valence states of Tm1-xSe and of the heavy-fermion compounds CeCu2Si, UPt3, and UBe13.


Batterman, Boris W [1969]
Cornell University
Citation: Not available


Bauer, Gunther [1990]
Johannes Kepler University
Citation: For contributions to many aspects of the physics of compound semiconductors.


Bauer, Robert Steven [1986]
Affiliation not available
Citation: For outstanding experimental contributions and technical leadership in understanding the electronic properties of semiconductors, especially their surfaces and interfaces.


Bayer, Manfred [2011]
University of Dortmund
Citation: For optical spectroscopy of charge and spin excitations in semiconductor quantum-dot structures.


Baym, Gordon Alan [1969]
Affiliation not available
Citation: Also approved by the Division of Particles and Fields.


Beamish, John [2011]
University of Alberta
Citation: For measurements of the shear modulus of solid 4He at low temperatures.


Beasley, Malcolm R. [1980]
Stanford University
Citation: Not available


Beck, Paul A [1971]
University of Illinois
Citation: Not available


Beckman, Olof [1976]
University of Uppsala, Sweden
Citation: Not available


Bedell, Kevin Shawn [1993]
Affiliation not available
Citation: For contributions to the theory of quantum fluids and correlated electron systems.


Bedzyk, Michael J. [1998]
Northwestern University and Argonne Naional Laboratory
Citation: For the development of variable-period x-ray standing wave experiments.


Behnia, Kamran [2012]
LPEM-ESPCI
Citation: For high-resolution thermal transport measurements to understand unconventional quantum states of matter


Belanger, David Peter [2003]
University of California, Santa Cruz
Citation: For investigations of critical behavior near phase transitions in pure, random, and frustrated systems, and for the development of novel optical, neutron scattering, and other techniques to measure such phenomena precisely.


Belitz, Dietrich [2010]
University of Oregon
Citation: For work on classical and quantal phase transitions, and the nature of phases affected by generic scale invariance.


Ben-Naim, Eli [2008]
Los Alamos National Laboratory
Citation: For broad contributions to granular physics, traffic flows, and non-equilibrium statistical physics.


Beni, Gerardo [1982]
Affiliation not available
Citation: Not available


Bergman, David J. [1989]
Tel Aviv University
Citation: For contributions to the theory of third sound, the concept of finite-size scaling, the statistical mechanics of nonequilibrium steady states, and the physics of composite media.


Bergmann, Gerd [1987]
Univ of Southern California
Citation: For his continuing illumination of electronic transport processes in metals, particularly in clarifying the physical interpretation of the effects of localization and in applying these ideas to important problems in metal physics.


Berker, A. Nihat [1988]
Massachusetts Institute of Technology
Citation: For the development of the position space renormalization group technique and its application to studies of phase transitions in physisorbed systems and liquid crystals.


Berkowitz, Ami Emanuel [1996]
University of California, San Diego
Citation: For elucidation of magnetic phenomena in particles, films, and multilayers and their technological applications.


Bernholc, Jerry [1991]
North Carolina State University
Citation: For pioneering and sustained contributions to the theory of point defects in semiconductors and for his contributions to the bonding and structure of atomic clusters.


Berry, Brian Shephard [1983]

Citation: For contributions to the study of solids by anelastic relaxation measurements, and for the application of such measurements to thin-layer materials.


Besenbacher, Flemming [2010]
University of Aarhus
Citation: For contributions to the understanding of atomic scale processes on solid surfaces, leading to breakthroughs in catalysis and nanotechnology.


Bezryadin, Alexey [2014]
University of Illinois, Urbana-Champaign
Citation: For insight into the superconductor-insulator transition and macroscopic quantum tunneling in molecular template superconducting nanowires.


Bhargava, Rameshwar W [1982]
Affiliation not available
Citation: Not available


Bhatt, Ravindra N. [1986]
Princeton Univ
Citation: For his effective use of fundamental theory, numerical simulation and phenomenology in elucidating such diverse systems as quantum fluids, spin glasses, and doped semiconductors near metal-insulator transitions.


Bhattacharya, Sabyasachi [1990]
Tata Institute of Fundamental Research
Citation: For experimental elucidation of the dynamics of complex systems, including broken-symmetry liquids and disordered solids.


Bianconi, Antonio [2016]
Universityersità di Roma
Citation: For developing experimental methods using synchrotron radiation including X-ray absorption near edge structure and scanning micro-X-ray diffraction, and for advanced data analysis techniques used to unveil the role of complex local structures in the functionality of oxide materials and metalloproteins.


Bienenstock, Arthur i [1971]
Stanford University
Citation: Not available


Bilderback, Donald H. [2006]
Cornell University
Citation: For his contributions to synchrotron x-ray physics in the field of x-ray optics and to the development of cryogenic cooling.


Bilz, Heinz [1983]
No Company Provided
Citation: For outstanding contributions to the theory of virtually every aspect of lattice dynamics and the electron-phonon interaction in solids.


Bimberg, Dieter H [2004]
Technical University of Berlin
Citation: For pioneering work in the basic understanding, development and first demonstration of self-assembled quantum-dot heterostructures for novel lasers and amplifiers.


Birge, Norman Owen [2003]
Michigan State University
Citation: For innovative contributions concerning the glass transition and mesoscopic physics, including 1/f noise and universal conductance fluctuations, electron decoherence mechanisms, and dissipative quantum tunneling of single defects in metals.


Birgeneau, Robert J [1974]
Bell Laboratories
Citation: Not available


Birnbaum, Howard K [1971]
University of Illinois
Citation: Not available


Bishop, Alan Reginald [1983]
Los Alamos National Laboratory
Citation: For scientific leadership in developing new areas of nonlinear science and revealing the paradigmatic role of strongly nonlinear phenomena in condensed matter and statistical physics.


Bishop, David John [1987]
Boston University
Citation: For his contributions to our understanding of the low temperature properties of condensed matter systems including metals, superconductors, and superfluids.


Bishop, Stephen G [1982]
Affiliation not available
Citation: Not available


Biswas, Rana [2009]
Iowa State University
Citation: For theoretical contributions to the dynamics of semiconductors, solar materials, and photonic crystals.


Blakely, John M [1978]
Cornell University
Citation: Also approved by the Division of Chemical Physics and the Division of Atomic, Molecular and Optic Physics.


Blatter, Johann (Gianni) W. [1999]
ETH Zurich
Citation: For contributions to the theoretical understanding of macroscopic quantum phenomena of vortices in superconductors.


Blewitt, Thomas H [1971]
Argonne National Laboratory
Citation: Not available


Bloch, Aaron N [1981]
Exxon
Citation: Not available


Blumberg, Girsh [2006]
Bell Laboratories
Citation: For his seminal contributions to elucidating the physics of spin, charge and superconducting correlations in 1D and 2D complex oxide compounds using Raman scattering techniques.


Boatner, Lynn A [1977]
Ecole Polytechnique Federale
Citation: Also approved by the Division of Chemical Physics.


Boebinger, Gregory Scott [1997]
Bell Laboratories
Citation: For experimental investigations of magneto-transport in quantum wells and the normal state of high temperature superconductors using pulsed magnetic fields.


Bohm, Henry V [1969]
Wayne State University
Citation: Not available


Bonn, Douglas [2003]
University of British Columbia
Citation: For seminal work in elucidating the ground and excited states of high temperature superconductors through microwave studies of quasiparticle dynamics in samples of exceptional quality.


Bonner, Jill C [1977]
University of Rhode Island
Citation: Also approved by Forum of International Physics


Boolchand, Punit [1995]
University of Cincinnati
Citation: For Mossbauer studies of chalcogenide glasses that elucidate coordination, cluster formation, and incipient phase separation.


Booth, Corwin H. [2014]
Lawrence Berkeley National Laboratory
Citation: For use of x-ray spectroscopy to elucidate the properties of bulk and molecular correlated electron materials.


Borsa, Ferdinando [2001]
Iowa State University
Citation: For his novel and pioneering applications of NMR and NQR to a wide variety of problems in condensed matter physics, including stripe physics in cuprate superconductors and magnetization tunneling in molecular nanomagnets.


Bowick, Mark John [2004]
Syracuse University
Citation: With formidable analytic skills, numerical simulations and energetic collaborations with experimentalists, Mark Bowick has made significant contributions to understanding polymerized membranes and defect arrays in frozen topographies.


Boyce, James B. [1990]
Affiliation not available
Citation: For innovative applications of NMR and EXAFs to structural problems in condensed-matter physics.


Brill, Joseph Warren [2004]
University of Kentucky
Citation: For his innovative experiments on the elastic, thermal and non-linear optical properties of quasi-one-dimensional charge-density-wave materials.


Brillson, Leonard Jack [1984]
Ohio State University
Citation: For contributions to the physics and chemistry of metal/semiconductor interferes which have provided insight into the electronic properties of the interfaces.


Bringans, Ross D. [1993]
Affiliation not available
Citation: For pioneering work in the application of angle resolved photomission spectroscopy to semiconductor surfaces.


Brinkman, John A [1971]
North American Rockwell
Citation: Not available


Brinkman, William F [1972]
Bell Laboratories
Citation: Not available


Brodsky, Marc H [1976]
IBM Research Center
Citation: Not available


Brodsky, Merwyn B [1975]
Argonne National Laboratory
Citation: Not available


Bron, Walter E [1969]
Affiliation not available
Citation: Not available


Brooks, James Stephen [1999]
Florida State University
Citation: For experiments measuring magneto-transport properties in organic conductors.


Brown, Edmond [1969]
Affiliation not available
Citation: Not available


Brown, Stuart E [2003]
University of California, Los Angeles
Citation: For fundamental studies of low dimensional, highly correlated materials, especially using high pressure NMR, transport, and thermodynamic measurements, and for studies of the non-linear dynamics of charge-density waves.


Bruch, Ludwig W. [1995]
University of Wisconsin, Madison
Citation: For contributions to the theory of physical adsorption and interactions of physically adsorbed atoms on surfaces.


Bruinsma, Robijn Fredrik [1997]
University of California, Los Angeles
Citation: For contributions to the understanding of membranes, complex liquids, and random-field Ising models.


Brundle, Christopher Richard [1983]
No Company Provided
Citation: For pioneering work in the area of molecular photoelectron spectroscopy and in the application of electron spectroscopies to adsorption and oxidation processes at surfaces.


Brune, Harald [2011]
Ecole Polytechnique Federale de Lausanne
Citation: For contributions to understanding of nucleation, epitaxial growth, and the self-assembly of nanostructure superlattices.


Bryant, Garnett W. [2006]
National Institute of Standards and Technology
Citation: For seminal contributions to the theory of semiconductor quantum dots and other complex quantum nanostructures and to nanooptics.


Bucher, Ernst [1992]
University of Konstanz
Citation: For his work in the fields of nuclear hyperfine cooling, mixed-valent rare-earth compounds, heavy-fermion compounds, and solar cells.


Budhani, Ramesh Chandra [2004]
Indian Institute of Technology, Kanpur
Citation: For his contributions to the understanding of vortices in superconductors, including pinning by linear defects, motion under thermal and electric field gradients, and studies of dissipation with probes of varying time scales.


Budnick, Joseph I [1975]
University of Connecticut
Citation: Also approved by the Forum on the History of Physics, Forum on Education, and Forum on Industrial and Applie


Buehler-Paschen, Silke [2015]
Vienna University of Technology
Citation: For major contributions to the understanding of strongly correlated electron systems, particularly through the synthesis and investigation of quantum critical heavy fermion compounds, Kondo insulators, and strongly correlated thermoelectrics.


Buettiker, Markus [1990]
Affiliation not available
Citation: For developing formulate of conductance and Hall effect using transmittive properties of samples with more than two connections.


Buhrman, Robert Alan [1991]
Cornell University
Citation: For his contributions to the understanding of fluctuations in superconducting weak links, nanometer scale electronics, and interfaces in high temperature superconductors.


Bulaevskii, Lev Naumovich [2000]
Los Alamos National Laboratory
Citation: For numerous significant contributions to condensed matter theory, in particular in the area of layered superconductors.


Bunker, Bruce A. [2012]
University of Notre Dame
Citation: For contributions to the development of X-ray absorption spectroscopy and applications to complex nanoscale materials


Burke, Kieron [2007]
University of California, Irvine
Citation: For his seminal contributions to the development and application of the density functional theory of ground and excited electronic states, and electronic dynamics in condensed matter.


Burkhardt, Theodore W. [2006]
Temple University
Citation: For his contributions to the theory of phase transitions at surfaces and interfaces, and his contributions to the statistical mechanics of polymers.


Butler, William Hill [1987]
Univ of Alabama - Tuscaloosa
Citation: For his contributions to electronic structure and transport in solids.


Buyers, William James Leslie [1984]
Chalk River Laboratories
Citation: For extensive original contributions, theoretical and experimental, to studies of structure and basic excitations in in condensed matter, in particular of magnetic excitations in both ordered and disordered crystals.


Callaway, Joseph [1969]
Affiliation not available
Citation: Not available


Callcott, Thomas Anderson [1990]
Affiliation not available
Citation: For seminal contributions to soft-x-ray spectroscopy studies of metals.


Campagna, Maurice [1983]
No Company Provided
Citation: For his pioneering work in the field of spin-polarized photoemission and his studies of mixed valence systems.


Campbell, Charles Edwin [1994]
University of Minnesota
Citation: For contributions to the theory of quantum fluids and other strongly correlated many-body systems.


Campuzano, Juan Carlos [2001]
University of Illinois, Chicago
Citation: For fundamental contributions to the physics of high temperature cuprate superconductors by use of angle resolved photoemission spectroscopy.


Cannell, David S. [1987]
University of California, Santa Barbara
Citation: For contributions in the study of nonlinear and collective phenomena related to critical points, polymers, fractal aggregates, and hydrodynamic instabilities.


Cao, Gang [2009]
University of Kentucky
Citation: For experimental studies of electric and magnetic single-crystal transition-metal oxides.


Capasso, Federico [1986]
Harvard University
Citation: For outstanding contributions to the advancement of optical and microwave devices with 'band structure engineering'.


Cargill, George Slade, III [1983]
Lehigh University
Citation: For his critical experiments and calculations concerning atomic scale structure, magnetic excitations, and magnetic anisotropies in amorphous metallic alloys, and for his role in developing electron-acoustic microscopy.


Carlson, Erica [2015]
Purdue University
Citation: For theoretical insights into the critical role of electron nematicity, disorder, and noise in novel phases of strongly correlated electron systems and predicting unique characteristics.


Carpenter, John Marland [1989]
Argonne National Laboratory
Citation: For contributions to neutron scattering studies in condensed matter physics; in particular for in invention of pulsed proton spallation neutron sources.


Carpenter, Steve H. [1980]
Affiliation not available
Citation: Not available


Carr, G. Lawrence [2009]
Brookhaven National Laboratory
Citation: For applications of synchrotron and terahertz radiation to condensed-matter systems.


Castro-Neto, Antonio H. [2003]
Boston University
Citation: For contributions to the theory of strong correlations, fluctuations, and inhomogeneities in high temperature superconductors and quantum magnets.


Cava, Robert Joseph [1988]
Princeton Univ
Citation: For contributions to the materials physics of ceramic superconductors.


Cebe, Peggy [2008]
Tufts University
Citation: For use of heat capacity, dielectric relaxation, and X-ray scattering to study semicrystalline polymer and biopolymer materials, and for work with Deaf and hard of hearing students.


Celli, Vittorio [1975]
University of Virginia
Citation: Not available


Chaikin, Paul Michael [1985]
New York University
Citation: For many novel and creative uses of thermoelectric-power measurements and wide-ranging contributions to our understanding of quasi-one-dimensional metals, charge-density-wave systems, superconducting sandwiches, and colloidal crystals.


Chakraborty, Bulbul [2008]
Brandeis University
Citation: For important theoretical contributions to diverse areas of condensed matter physics, including frustrated magnets, diffusion of light particles in metals, the glass transition, and jamming in granular systems.


Chakraborty, Tapash [2011]
University of Manitoba
Citation: For understanding of the spin structure of the fractional quantum Hall effect and the electronic properties of quantum dots.


Chakravarty, Sudip [1991]
University of California, Los Angeles
Citation: For his contributions towards the understanding of quantum dissipative phase transitions in Josephson systems and his contributions towards understanding the magnetic properties of La2CuO4.


Chamon, Claudio [2008]
Boston University
Citation: For his important theoretical work on the probing of fractional charge and statistics in strongly correlated systems.


Chan, Moses H.W. [1987]
Pennsylvania State University
Citation: For pioneering studies if the nature of phases and phase transitions in two and three dimensions.


Chandi, James Djamshid [1989]
Affiliation not available
Citation: For theoretical contributions to the understanding of semiconductor surface reconstructions and defect-related structural metastabilities.


Chandra, Premala [2013]
Rutgers University
Citation: For contributions to the theory of frustrated antiferromagnets and glasses, ferroelectrics and heavy fermion materials.


Chandrasekhar, Meera [1992]
University of Missouri
Citation: For her optical experiments at high pressure on the nature of energy bands, deep levels, and quantum confined states in semiconductors.


Chandrasekhar, Venkat [2008]
Northwestern University
Citation: For significant contributions to transport in mesoscopic systems.


Chang, Albert M. [2000]
Purdue University
Citation: For experimental studies of quantum Hall edge states and Luttinger liquids.


Chang, Leroy L [1982]
Affiliation not available
Citation: Not available


Chelikowsky, James Robert [1987]
University of Texas, Austin
Citation: For contributions to the understanding of electronic, optical, and structural properties of materials through creative synthesis of empirical and first-principles quantum theory.


Chemla, Daniel Simon [1988]
Affiliation not available
Citation: For contributions to the understanding of nonlinear optical processes and to the development of nonlinear spectroscopy in condensed matter.


Chen, Cheng-Hsuan Sunshine [1996]
AT&T Bell Laboratories
Citation: For pioneering contributions to condensed matter physics through applications of electron diffraction and microscopy.


Chen, Ho Sou [1989]
Affiliation not available
Citation: For providing critical insights into the nature of metastable solid phases; in particular, the structure and relaxation of metallic glasses, phase transitions in amorphous systems, and the thermodynamics of the quasi-crystalline phase.


Chen, Yok [1977]
Oak Ridge National Laboratory
Citation: Not available


Cheong, Sang-Wook [2000]
Rutgers University
Citation: For the synthesis and characterization of new oxide materials with unusual charge or spin order.


Chi, Cheng-Chung [2012]
National Tsing Hua University
Citation: For studies of nonequilibrium superconductivity and quasiparticle dynamics using tunneling and ultrafast pulse experiments


Chiang, Tai-Chang [1986]
University of Illinois, Urbana-Champaign
Citation: For his numerous contributions to the understanding of bulk, surface and interface states of metals and semiconductors using photoemission techniques.


Chiarotti, Gianfranco [1994]
University of Roma
Citation: For development of optical modulation spectroscopy and for studies of electronic states at point defects and at surfaces.


Chien, Chia-Ling [1989]
Johns Hopkins University
Citation: For contributions to the understanding of the magnetic properties of metallic glasses, magnetic super-lattices, granular solids, and superconductors.


Cho, Alfred Y. [1983]
Agere Systems
Citation: For the development of the molecular beam technique for epitaxial growth of semiconductor materials, which has resulted in significant scientific and technological advances in semiconductor physics and semiconductor device development.


Chou, Mei-Yin [2002]
Georgia Institute of Technology
Citation: For seminal contributions to the development and application of electronic structure techniques, applied successfully to studies of structural and electronic properties of materials.


Chubukov, Andrey V. [2003]
University of Wisconsin, Madison
Citation: For distinguished contributions to condensed matter theory, notably the theory of high temperature superconductivity and the relation between spin fluctuations and the effective interaction for electron pairing.


Chudnovsky, Eugene M. [1993]
Affiliation not available
Citation: For seminal contributions to random ferromagnetism, macroscopic quantum tunneling, and hexatic order in high Tc materials.


Citrin, Paul H [1981]
Bell Laboratories
Citation: Not available


Civale, Leonardo [2007]
Los Alamos National Laboratory
Citation: For seminal contributions to the understanding of anisotropic electrical and magnetic properties of superconductors and vortex physics.


Cladis, Patricia Elizabeth [1983]
Advanced Liquid Crystal Technologies
Citation: For outstanding contributions: to the experimental investigation of liquid crystal systems which has revealed novel and significant phenomena; to their theoretical interpretation; and to the growing field of liquid crystal science in general.


Clark, Noel A [1984]
University of Colorado, Boulder
Citation: For contributions to the understanding of ferroelectric liquid crystals and of liquid crystals and macroscopic colloidal crystals through the use of light scattering techniques.


Clarke, David Richard [1986]
Harvard University
Citation: For important contributions to understanding atomic-scale fracture phenomena, structure and energetics of class-ceramic interfaces, and toughening mechanisms in ceramic materials.


Clarke, John [1985]
No Company Provided
Citation: For his deep, original and innovative contributions to condensed matter physics using superconducting quantum interference devices.


Cleland, Andrew N. [2009]
University of California, Santa Barbara
Citation: For fundamental studies and applications of nanomechanical and nanoelectronic devices.


Clem, John R [1982]
Affiliation not available
Citation: Not available


Cobden, David [2015]
University of Washington
Citation: For novel contributions to experimental physics in low dimensional nano-scale systems, in particular VO2 
nanobeams and carbon nanotube electronic properties.


Cohen, Elisha [1990]
TECHNION
Citation: For contributions to the understanding of the optical properties of crystals and of excitons in semiconductors.


Cohen, Marvin L [1969]
University of California, Berkeley
Citation: Not available


Cohen, Roger W [1975]
RCA Laboratories
Citation: Not available


Coleman, Piers [2000]
Rutgers University
Citation: For innovative approaches to the theory of strongly correlated electron systems.


Collins, Reuben T. [2012]
Colorado School of Mines
Citation: For contributions to understanding optical properties of high temperature superconductors, complex semiconductor heterostructures, porous silicon and hybrid organic-inorganic heterostructures


Collins, Thomas C [1975]
Aerospace Research Laboratory
Citation: Not available


Cone, Rufus L. [1998]
Montana State University
Citation: For optical spectroscopy studies of rare earth insulators.


Connolly, John W. D. [1980]
Affiliation not available
Citation: Not available


Conradi, Mark S. [2002]
Washington University
Citation: For innovation of sensitive nuclear magnetic resonance methodologies applicable at high pressures in diamond anvil cells.


Cooke, John Franklin [1987]
Oak Ridge National Laboratory
Citation: For his insightful formulation of multiple-band effects in itinerant magnetism of real metals, which led to the successful prediction of optical spin waves in Ni and Fe.


Cooper, Barbara Hope [1995]
Cornell University
Citation: For her innovative studies of fundamental ion-surface interactions in the hyperthermal energy range, including experiments and simulations to develop accurate interaction potentials and comprehensive studies of ion-surface charge transfer dynamics.


Cooper, Bernard R [1968]
Affiliation not available
Citation: Not available


Cooper, Stephen Lance [2003]
University of Illinois, Urbana-Champaign
Citation: For imaginative use of Raman and other optical techniques to study ordering, spin and charge dynamics, and their couplings to lattice dynamics in strongly correlated electronic systems.


Coppersmith, Susan N. [1992]
University of Wisconsin, Madison
Citation: For her theories of charge-density waves and self-organized criticality.


Courtens, Eric L.E. [1982]
Affiliation not available
Citation: Not available


Cox, Daniel [2011]
University of California, Davis
Citation: For identifying energetic and symmetry principles for observation of non-Fermi liquid and Kondo impurity physics.


Crabtree, George William [1984]
Argonne National Laboratory
Citation: For important contribution to the study of Fermi surfaces of normal and superconducting metals, particularly transition metals and mixed volume materials, through the use of the deHaas-van Alphen effect.


Craighead, Harold G [2004]
Cornell University
Citation: For his significant advances in experimental studies of the physical properties and utilization of nanoscale materials and structures.


Crawford, Roy Kent [1999]
Argonne National Laboratory
Citation: For the development of neutron scattering instruments and of data acquisition systems for pulsed neutron sources.


Croft, Mark [2007]
Rutgers University
Citation: For seminal contributions to correlated electron physics and electronic structure of rare earth and transitional metal compounds; novel applications of synchrotron radiation.


Crommie, Michael [2007]
University of California, Berkeley
Citation: For application of scanning tunneling microscopy, atomic and molecular manipulation, and scanning tunneling spectroscopy to the electronic and magnetic properties of surface-based nanostructures.


Crooker, Scott [2010]
Los Alamos National Laboratory
Citation: For the development of magneto-optical spectroscopies and their applications to colloidal quantum dots and electron spin transport and noise in semiconductors.


Cross, Michael C. [1995]
California Institute of Technology
Citation: For contributions to the theory of superfluid 3He, magnetic order in solid 3He, pattern formation near non-equilibrium instability and quantitative understanding of spatiotemporal chaos.


Crow, Jack Emerson [1992]
Affiliation not available
Citation: For his contributions to the understanding of Condensed Matter Physics in high magnetic fields, including superconductivity, heavy fermions, and magnetic order.


Csavinszky, Peter J [1972]
University of Maine
Citation: Also approved by the Division of Chemical Physics.


Curro, Nicholas [2011]
University of California, Davis
Citation: For application of nuclear magnetic resonance techniques to heavy fermion and superconducting materials.


Cutris, Orlie L, Jr. [1972]
Northrop Corporation Laboratories
Citation: Not available


Dagotto, Elbio [1998]
Florida State University
Citation: For the development and use of computational methods to study strongly correlated electron materials.


Dahlberg, Earl Dan [1996]
University of Minnesota
Citation: For contributions to the development of magnetic force microscopy and its application to the dynamics of magnetic systems.


Dahm, Arnold J. [1985]
Case Western Reserve University
Citation: For contributions to the understanding of the Josephson effect, quantum fluids and solids, and of the nature of the melting transition and other properties of the two-dimensional electron lattice.


Damascelli, Andrea [2014]
University of British Columbia
Citation: For determination of electronic structure of unconventional oxide superconductors and related materials utilizing angle-resolved photoemission and resonant soft x-ray scattering.


Damon, Richard Winslow [1969]
Affiliation not available
Citation: Not available


Datars, William Ross [1981]
McMaster University
Citation: Not available


Datta, Supriyo [1996]
Purdue University
Citation: For contributions to the theory of quantum transport and the interplay between quantum interference and dissipation in mesoscopic systems.


Datz, Sheldon [1969]
Oak Ridge National Laboratory
Citation: Also approved by the Division of Chemical Physics and the Division of Atomic, Molecular and Optical Physics.


Davidson, Sydney G [1972]
Bartol Research Foundation
Citation: Also approved by the Division of Chemical Physics, and the Division of Atomic, Molecular and Optic Physics.


Davis, Harold L [1972]
Oak Ridge National Laboratory
Citation: Not available


Davis, James C [2005]
Cornell University
Citation: For pioneering spectroscopic imaging STM studies of electronic structure in the cuprate high-Tc superconductors and for the discovery of novel quantum coherence effects in superfluids.


Davis, Lloyd Craig [1983]

Citation: For his contributions to understanding the electronic properties of solids, in particular for his detailed studies of photoemission and photoabsorption in transition metals and their compounds.


Davis, Wiliam Robert [1969]
North Carolina State University
Citation: Also approved by the Division of Polymer Physics and the Division of Atomic, Molecular and Optic Physics.


de Heer, Walter Alexander [2003]
Georgia Institute of Technology
Citation: For seminal contributions to our understanding of the electronic properties of free metal clusters and for the studies of the field emission and transport properties of nanotubes.


De Long, Lance Eric [2006]
University of Kentucky
Citation: For his contributions to the understanding of magnetic properties and interactions in superconducting and strongly correlated metallic crystals and films.


De Lozanne, Alejandro L. [2013]
University of Texas
Citation: For spectroscopic imaging of complex materials using scanning tunneling microscopy.


Decker, Daniel L. [1980]
Brigham Young University
Citation: Not available


Deckman, Harry William [1995]
Exxon Research & Engineering Co.
Citation: For developing an innovative, new approach to microlithography using self-organized mask structure, and for using this approach in developing the hardware for x-ray micromography and in other novel applications.


Degraaf, Adrian M [1976]
Wayne State University
Citation: Not available


Delsing, Per [2015]
Chalmers University of Technology
Citation: For pioneering research on the physics of single-electron devices, superconducting circuits, and microwave photonics.


Demuth, Joseph E [1981]
IBM
Citation: Not available


den Nijs, Marcellinus P.M. [2001]
University of Washington
Citation: For his contributions to the theory of surface critical phenomena, the prediction of new surface phases, and the elucidation of their transitions.


Dessau, Daniel [2015]
University of Colorado, Boulder
Citation: For development of high resolution ARPES and laser-ARPES, and their utilization in ground-breaking studies of correlated electron materials, particularly cuprate superconductors and colossal magnetoresistive oxides.


Deutsch, Thomas F [1978]
Massachusetts Institute of Technology
Citation: Not available


Deveaud, Benoit [2012]
Ecole Polytech Federal
Citation: For demonstration of Bose Einstein condensation of exciton polaritons in microcavities and developments in semiconductor ultrafast optics


Devereaux, Thomas [2008]
Stanford University
Citation: For significant contributions to the theories of inelastic light scattering and angle-resolved photoemission spectroscopies in strongly correlated systems.


Devreese, Jozef Theofiel [1990]
University of Antwerp
Citation: For contributions to the theory of polarons subjected to external magnetic and electric fields, and for service to the international condensed-matter community.


DeWames, Roger E [1971]
North American Rockwell
Citation: Not available


Di Ventra, Massimiliano [2012]
University of California, San Diego
Citation: For contributions to the theory of electronic transport in nanoscale conductors


DiDomenico, Mauro, Jr. [1976]
Bell Laboratories
Citation: Not available


Diehl, Renee [1999]
Pennsylvania State University
Citation: For structural studies of weakly-adsorbed species on surfaces.


Dietl, Tomasz [2015]
Polish Academy of Sciences
Citation: For seminal contributions to the theory of magnetic semiconductors.


DiMaria, Donelli Joseph [1988]
Affiliation not available
Citation: For contributions to our microscopic understanding of the physics of insulators.


Dimmock, John O [1972]
Massachusetts Institute of Technology
Citation: Not available


Ding, Hong [2010]
Chinese Academy of Sciences
Citation: For contributions to the understanding of strongly correlated materials, particularly the high-temperature superconductors.


Disalvo, Francis Joseph [1981]
Bell Laboratories
Citation: Not available


DiVincenzo, David P. [1999]
IBM T.J. Watson Research Center
Citation: For contributions to the theory of quasicrystals, and to the theory of quantum information.


Doane, Joseph W [1982]
Affiliation not available
Citation: Not available


Dobrosavljevic, Vladimir [2010]
Florida State University
Citation: For research on fundamental localization processes near the metal-insulator transition, particularly the interplay of strong electronic correlations, disorder, and quantum glassy dynamics.


Dobrowolska, Malgorzata [2004]
University of Notre Dame
Citation: For her seminal contributions to the understanding of the role of electron spin in optical transitions in semiconductor compounds and alloys, including magnetic semiconductors and their nanostructures.


Dolan, Gerald J. [1987]
Affiliation not available
Citation: For development of new techniques for fabricating microstructures and for contributions to our understanding of the physics of these microstructures.


Dolling, Gerald [1981]
Atomic Energy of Canada Limited
Citation: Not available


Doniach, Sebastian [1985]
Stanford University
Citation: For his physical insight and mathematical treatment of collective effects in many-body systems, particularly spin fluctuations in helium and EXAFS structures from solid surfaces.


Dorsey, Alan Thomas [2002]
University of Florida
Citation: For seminal contributions to the theory of magnetic flux dynamics and non-equilibrium pattern formation in superconductors.


Douglass, David H, Jr. [1969]
University of Chicago
Citation: Not available


Dow, John D [1976]
University of Illinois
Citation: Not available


Dresner, Jospeh [1969]
Affiliation not available
Citation: Not available


Dresselhaus, Mildred S [1972]
Massachusetts Institute of Technology
Citation: Not available


Drew, Howard Dennis [1995]
University of Maryland
Citation: For his contribution to the study of the electrodynamic response of superconductors in magnetic fields, and collective effects in semiconductor heterostructures.


Drndic, Marija [2013]
University of Pennsylvania
Citation: For development of novel nanofabrication methods for graphene nanoelectronics and fast biomolecular analysis in solution.


Du, Rui Rui [2003]
University of Utah
Citation: For his seminal contributions to the physics of the fractional quantum Hall effect, and especially, through his original experiments, to our understanding of the properties of composite fermions.


Duke, Charles B [1969]
General Electric R&D Center
Citation: Also approved by the Division of Chemical Physics.


Dunlap, Bobby David [1985]
Argonne National Laboratory
Citation: For important contributions to the understanding of electronic and magnetic properties of a wide range of materials, especially actinide compounds and magnetic superconductors.


Dunlap, Bobby David [1985]
Argonne National Laboratory
Citation: For important contributions to the understanding of electronic and magnetic properties of a wide range of materials, especially actinide compounds and magnetic superconductors.


Durian, Douglas Jack [2004]
University of California, Los Angeles
Citation: For ground-breaking contributions to the measurement and understanding of dynamics in foams and granular media.


Dutta, Pulak [1992]
Northwestern University
Citation: For his elucidations of the structures and phase transitions of lipid monolayers.


Dykman, Mark I. [2001]
Michigan State University
Citation: For insightful contributions toward understanding the importance of large fluctuations in physical systems and for theoretical developments on the many-electron dynamics of the two-dimensional electron gas.


Dynes, Robert C [1981]
Bell Laboratories
Citation: Not available


Dzyaloshinskii, Igor E. [1996]
University of California, Irvine
Citation: For contributions to the theory of many-body systems.


Echenique, Pedro Miguel [1990]
Affiliation not available
Citation: For contributions to the theory of surface image states and of surface and bulk excitations.


Eckern, Ulrich [2012]
University of Augsburg
Citation: For contributions to the theory of nonequilibrium superconductivity, quantum dissipation in Josephson junctions, and phase coherence in disordered and interacting mesoscopic systems


Edelstein, Norman Marvin [1998]
Lawrence Berkeley National Laboratory
Citation: For optical and magnetic studies of the electronic structure of actinide ions.


Eernisse, Errol P. [1980]
Affiliation not available
Citation: Not available


Eesley, Gary Lynn [1994]
General Motors Research Laboratories
Citation: For ultrafast optical studies of energy transport in metals.


Efetov, Konstantin [2011]
Ruhr Universitat Bochum
Citation: For applying the supersymmetry method to disordered, granular, and mesoscopic metals and superconductors.


Efros, Alexander Lev [2001]
Naval Research Laboratory
Citation: For pioneering and fundamental contributions to the theory of semiconductor nanocrystals including establishing the basic model used for describing their electronic and optical properties.


Efros, Alexei L. [1992]
University of Utah
Citation: For his work on the theory of transport in disordered systems.


Egelhoff, William Frederick, Jr. [1991]
Affiliation not available
Citation: For contributions to the development of photoelectron spectroscopy as a probe of surface electronic structure and of x-ray photoelectron and Auger-electron forward scattering as a surface structural probe.


Ehrenfreund, Eitan [2011]
Technion, Israel Institute of Technology
Citation: For elucidating magnetic and optical phenomena in conducting polymers, semiconductor quantum wells and quantum dots.


Eigler, Donald M. [1995]
IBM Almaden Research Center
Citation: For his achievements in the field of atomic manipulation using a scanning tunneling microscope.


Einstein, James P. [1992]
Affiliation not available
Citation: For his experiments elucidating the transport properties of the two-dimensional electron gas in semiconductor heterostructures.


Einstein, Theodore Lee [1995]
University of Maryland
Citation: For his contributions to the theory of interactions between chemisorbed atoms, their consequences for two-dimensional phase transitions and to the theory of measurable properties of vicinal surfaces.


Eisen, Fred Henry [1982]
Affiliation not available
Citation: Not available


Eisenberger, Peter Michael [1981]
Bell Laboratories
Citation: Not available


Eklund, Peter Clay [1997]
University of Kentucky
Citation: For contributions to the synthesis and optical studies of carbon-based solids.


Elliott, Roger James [1981]
University of Oxford
Citation: Not available


Ellis, Donald E [1975]
Northwestern University
Citation: Not available


Emery, Victor J [1976]
Brookhaven National Laboratory
Citation: Not available


Emin, David [1977]
Sandia National Laboratories
Citation: Not available


Endoh, Yasuo [1999]
Tohoku University
Citation: For neutron scattering experiments on one- and two-dimensional quantum magnets in high-temperature superconductors and their precursors.


Engel, Lloyd [2010]
Florida State University
Citation: For contributions to the study of the quantum Hall effects  and associated electron solid phases using microwaves in very high magnetic fields.


Ensslin, Klaus [2009]
ETH Zurich
Citation: For contributions to the understanding of optical and transport properties of nanoscale systems.


Entin-Wohlman, Ora [1993]
Affiliation not available
Citation: For contributions to the theory of granular superconductivity, fractions, strong localization and nonlinear optics in novel materials.


Enz, Charles P. [1986]
Univ of Geneve
Citation: For his many contributions to condensed-matter physics, equilibrium and non-equilibrium statistical mechanics, and the history of physics.


Epstein, Arthur Joseph [1981]
Xerox
Citation: Not available


Eriksson, Mark A. [2012]
University of Wisconsin, Madison
Citation: For contributions to the understanding and development of nanodevices for spintronics and quantum information applications


Erskine, James L. [1989]
University of Texas, Austin
Citation: For contributions to understanding of magnetic materials and for spectroscopic studies of solid surfaces.


Eschenfelder, Andrew H [1972]
IBM, San Jose
Citation: Not available


Eskildsen, Morten R. [2014]
University of Notre Dame
Citation: For insightful studies of the vortex lattice in conventional and unconventional type-II superconductors.


Etemad, Shahab [1993]
Affiliation not available
Citation: For extensive research on the interaction of light with matter, especially photon localization and nonlinear optics in novel materials.


Euwema, Robert N [1976]
Aerospace Research Laboratory
Citation: Not available


Evans, James William [2002]
Iowa State University
Citation: For the development and application of models of the non-equilibrium processes of epitaxy, chemisorption and catalytic reactions at surfaces.


Fadley, Charles Sherwood [1987]
University of California, Davis
Citation: For experimental and theoretical contributions to the development of photoelectron spectroscopy for core-level chemical shifts, multiplet splittings, surface-sensitivity enhancement, photoelectron diffraction, and angle-resolved valence band studies.


Fain Jr., Samuel C. [1984]
University of Washington
Citation: For contributions and understanding of two dimensional phases of commensurate, incommensurate, and orientationally distinct structures and for improvements in low energy electron diffraction techniques.


Falco, Charles M. [1987]
University of Arizona
Citation: For his unique and leading contributions in the area of metallic superlattices.


Falicov, Leopoldo M [1969]
University of Chicago
Citation: Not available


Family, Fereydoon [1990]
Emory University
Citation: For contributions in statistical physics including work on liquid helium, renormalization in polymer systems and DLA clusters, and the formation of a scaling theory for rough surfaces.


Fang, Frank F [1982]
Affiliation not available
Citation: Not available


Fang, Zhong [2011]
Chinese Academy of Sciences
Citation: For applying first-principle calculations to topological aspects of spin-orbital physics.


Farach, Horacio A [1977]
University of South Carolina
Citation: Not available


Faraday, Bruce J [1969]
Naval Research Laboratory
Citation: Not available


Farrell, David E. [1992]
Case Western Reserve University
Citation: For his contributions to the use of SQUIDs in biomagnetic research and his studies of anisotrophy in high- Tc superconductors.


Fauchet, Philippe M. [1998]
University of Rochester
Citation: For experimental contributions to understanding properties of porous silicon.


Feder, Jens [1989]
Univ of Oslo
Citation: For contributions to theories and experiments on structural phase transitions and on fractals in aggregates and in porous media.


Feder, Ralph [1986]
Affiliation not available
Citation: For pioneering the field of x-ray contact microscopy, and for his early contributions to the study of the equilibrium concentration of point defects in metals.


Feenstra, Randall M. [1997]
Carnegie Mellon University
Citation: For contributions to the development of the Scanning Tunneling Microscope as a spectroscopic tool to probe semiconductor surfaces and surface phenomena.


Feibelman, Peter Julian [1981]
Sandia National Laboratories
Citation: Not available


Feigelman, Mikhail [2007]
Landau Institute for Theoretical Physics
Citation: For contributions to the theory of disordered materials, in particular to pinned charge density waves, spin glasses, pinned vortices in superconductors, glass formation in systems without quenched disorder, and disordered superconductor-normal metal structures.


Feigl, Frank Joseph [1983]
No Company Provided
Citation: For his delineation of basic defect structures in both crystal and amorphous forms of silicon dioxide, and establishment of the relationships of these structures to technologically important phenomena.


Felcher, Gian Pero [1981]
Argonne National Laboratory
Citation: Not available


Feldman, Leonard C [1981]
Bell Laboratories
Citation: Not available


Felser, Claudia [2012]
Johannes Gutenberg University
Citation: For creating and understanding new Heusler materials with spintronic and energy functionalities


Fendley, Paul [2013]
University of Virginia
Citation: For applying the mathematics of integrable systems to low dimensional systems, including spin chains and fractional quantum Hall states.


Feng, Donglai [2016]
Fudan University
Citation: For seminal contributions to elucidating the electronic structure of quantum materials, particularly bulk and interface superconductivity in iron-based superconductors.


Fenter, Paul [2007]
Argonne National Laboratory
Citation: For innovative application of x-ray scattering to the study of complex molecular-scale structures and processes at organic-inorganic and mineral-water interfaces.


Fernandez, Julio Fernando [1993]
Affiliation not available
Citation: For basic simulation contributions to the physics or disordered magnetic systems, especially of the random-field Ising model.


Ferry, Dacid K [1977]
Oak Ridge National Laboratory
Citation: Not available


Fertig, Herbert A [2001]
University of Kentucky
Citation: For his contributions to the theory of the two-dimensional electron gas in high magnetic fields.


Fetter, Alexander L [1972]
Stanford University
Citation: Not available


Fichthorn, Kristen [2010]
Pennsylvania State University
Citation: For simulations that revealed new phenomena in the kinetics of reaction systems, self-assembly of nanostructures, and diffusion in mesoporous systems.


Fiete, Gregory A. [2016]
University of Texas at Austin
Citation: For contributions to the theory of correlated electron systems, including pioneering work on the spin-incoherent Luttinger liquid and interaction-driven topological phases.


Fink, Herman Joseph [1969]
Affiliation not available
Citation: Not available


Finkelstein, Alexander [2013]
Texas A&M University, College Station
Citation: For the theory of the metal-insulator transition in interacting disordered systems.


Finkelstein, Gleb [2015]
Duke University
Citation: For significant experimental studies of quantum transport in nanostructures, especially electron correlation effects in artificial quantum impurity systems.


Finnemore, Douglas K [1969]
Affiliation not available
Citation: Not available


Fisher, Daniel Sebastian [1986]
Stanford University
Citation: For his application of the modern techniques of statistical mechanics to such diverse systems as two-dimensional phase transitions, solid 3He, charge-density-wave solids, and disordered magnets.


Fisher, Matthew P. A. [1998]
University of California, Santa Barbara
Citation: For contributions to theories of vortex states, superconductor-insulator transitions, and edge states in the quantum Hall effect.


Fisher, Peter [1972]
Purdue University
Citation: Not available


Fishman, Randy [2014]
Oak Ridge National Laboratory
Citation: For theoretical studies of the spin dynamics of multiferroic and spin-density wave materials, and for modeling inelastic neutron-scattering spectra.


Fisk, Zachary [1985]
University of California, Irvine
Citation: For important contributions to the synthesis and understanding of new materials in single crystal form, particularly high critical temperature superconductors and heavy Fermion superconductors.


Fitchen, Douglas B. [1989]
Cornell University
Citation: For contributions to the understanding of defects and impurities in solids and for studies of the properties of conducting polymers.


Flatté, Michael [2007]
University of Iowa
Citation: For contributions to the theory of spin-dependent properties of semiconductors, especially transient and inhomogeneous magnetic and optical properties, and applications to spintronic devices.


Fleming, Robert McLemore [1988]
Sandia National Laboratories
Citation: For contributions to our understanding of the structural and transport properties of charge density waves in transition metal compounds.


Flores, Fernando [1987]
Affiliation not available
Citation: For his contributions to the theory of electronic surface states, metal-semiconductor interfaces, and the interaction of energetic probes with surfaces and bulk matter.


Folen, Vincent J [1968]
Affiliation not available
Citation: Not available


Ford, James L.C., Jr. [1976]
Oak Ridge National Laboratory
Citation: Not available


Fowler, Alan Bicksler [1968]
Affiliation not available
Citation: Not available


Fowler, Michael [1994]
University of Virginia
Citation: For the application of the Bethe Ansatz method to the solution of challenging problems in one-dimensional systems.


Fradin, Frank Y [1978]
Northern Illinois University
Citation: Not available


Fradkin, Eduardo Hector [1998]
University of Illinois
Citation: For the application of quantum field theory methods to condensed matter physics.


Frankel, Richard S [1974]
Massachusetts Institute of Technology
Citation: Also approved by the Forum on Physics and Society, the Forum Outreach and Engaging Public, and the Division of Biological Physics.


Franz, Judith R [1982]
Affiliation not available
Citation: Not available


Franz, Marcel [2014]
University of British Columbia
Citation: For contributions to the theory of topological states of quantum matter.


Freeland, John W. [2014]
Argonne National Laboratory
Citation: For development and use of new x-ray techniques to understand chemical, structural, electronic and magnetic features at oxide interfaces.


Freeman, Mark [2015]
University of Alberta
Citation: For pioneering studies of magnetization dynamics in nanostructures using ultrafast optical spectroscopy, scanning microscopy, and nanomechanical magnetometry.


Freeouf, John Lawrence [1990]
Oregon Health Sciences University
Citation: For application of surface-science techniques to the elucidation of semiconductor interfaces and for contributions to the physics of surface barriers.


Freericks, James Knox [2006]
Georgetown University
Citation: For seminal results in applying dynamical mean-field theory to bulk and multilayered strongly correlated electron systems, significantly advancing our understanding of transport, light scattering, ordered phases and photoemission.


Friedel, Jacques [1986]
Affiliation not available
Citation: For outstanding contributions to the microscopic description of impurities in metals and the properties of crystals, allows and surfaces.


Fuchs, Ronald [1969]
Affiliation not available
Citation: Not available


Fuhrer, Michael [2010]
University of Maryland
Citation: For experimental studies of the electronic transport properties of carbon nanotubes and graphene.


Fulton, Theodore Alan [1983]
Alcatel Lucent, Bell Laboratories
Citation: For his contributions to the development of Electron Spectroscopy of Chemical Analysis (ESCA).


Furtak, Tom [2010]
Colorado School of Mines
Citation: For contributions to the understanding of surface enhanced Raman scattering.


Gadzuk, John Williams [1981]
National Bureau of Standards
Citation: Not available


Gallagher, William J. [1991]
IBM T.J. Watson Research Center
Citation: For his contributions to superconductivity and thin-film superconducting materials and devices.


Gammel, Peter Ledel [1996]
AT&T Bell Laboratories
Citation: For contributions to our understanding of persistent currents in superfluid 3He and vorticity in both superfluid 3He and superconductors.


Gammon, Daniel [2002]
Naval Research Laboratory
Citation: For advances in the optical spectroscopy of single semiconductor quantum dots using ultrahigh spatial and spectral resolution.


Gamota, George [1980]
Sci & Tech Mgmt Asso
Citation: Not available


Garg, Anupam K. [2012]
Northwestern University
Citation: For theory and predictions of molecular magnetism and macroscopic quantum phenomena


Garito, Anthony F. [1998]
University of Pennsylvania
Citation: For contributions to the understanding of enhancement mechanisms for second and third order nonlinear optical processes in organic and polymer structures.


Garland, James Callaway [1985]
Miami University
Citation: For contributions to understanding thermoelectric phenomena in both normal metals and superconductors, especially two-dimensional thin films; and for his extensive research on electrical transport properties of inhomogeneous materials.


Garoff, Stephen [1998]
Carnegie Mellon University
Citation: For experimental studies of the dynamics of wetting.


Gasparini, Francis M. [1990]
State University of New York, Buffalo
Citation: For contributions to the field of quantum fluids, especially He-He mixtures, and the critical behavior and finite-size scaling at the super-fluid transition of He.


Gaulin, Bruce Douglas [2005]
McMaster University
Citation: For leadership in the application of scattering techniques to problems in phase transitions and magnetism.


Gavenda, John D [1973]
Not available
Citation: Not available


Gefen, Yuval [2009]
Weizmann Institute of Science
Citation: For fundamental theoretical studies of mesoscopic systems.


Gehring, Peter Motz [2006]
National Institute of Standards and Technology
Citation: For major contributions to our understanding of the lattice dynamics of relaxor ferroelectrics, and elucidating the nature of the spin dynamics of cuprate oxides by means of neutron scattering.


Gemmell, Donald Stewart [1987]
No Company Provided
Citation: For pioneering research into ion-solid interactions, the motions of charged particles in crystals, wake effects induced in solids by swift ions, and determination of molecular structures through Coulomb explosions.


Genack, Azriel Z. [1991]
CUNY - Queens College
Citation: For the characterization of electromagnetic propagation in the diffusive and critical regimes and for relating key propagation phenomena to the statistics of eigenmodes of random systems.


Gennes, Pierre-Gilles de [1986]
Affiliation not available
Citation: For his pioneering and leading role in a variety of fields in condensed-matter theory and polymer physics.


Gershenson, Michael [2007]
Rutgers University
Citation: For experimental studies of quantum transport and dephasing processes in disordered low-dimensional electronic systems.


Gershoni, David [2004]
Technion, Israel Institute of Technology
Citation: For pioneering experimental and theoretical studies of the optical properties of nanostructured semiconductors, including nanowires and single self-assembled quantum dots.


Ghosh, Amal K [1981]
Exxon
Citation: Not available


Giamarchi, Thierry [2013]
University of Geneva
Citation: For elucidating the role of interactions and disorder in low dimensional classical and quantum systems.


Giannetta, Russell [2007]
University of Illinois, Urbana-Champaign
Citation: For significant advances in experimental techniques for measuring the superconducting penetration depth and their application for elucidating the pariing symmetry and electronic structure of unconventional superconductors.


Gibbs, Laurence Doon [1996]
Brookhaven National Laboratory
Citation: For development of x-ray magnetic scattering techniques and contributions to the understanding of the structure and phase behavior of metal surfaces.


Gibbs, Peter G [1972]
University of Utah
Citation: Not available


Gibson, J. Murray [1989]
Northeastern University
Citation: For uses of electron microscopy of elucidate the relation between atomic structure and physical properties in condensed matter systems.


Gilbert, Pupa [2010]
University of Wisconsin, Madison
Citation: For contributions to synchrotron spectromicroscopy and its application to cancer therapy, tribology, and biomineralization.


Gilleo, M Alten [1972]
Allied Chemical Corporation
Citation: Also approved by the Division of Atomic, Molecular and Optic Physics, and the Division of Plasma Physics.


Gillis, Nelson S [1982]
Affiliation not available
Citation: Not available


Gingras, Michel J.P. [2011]
University of Waterloo
Citation: For the theory of geometrically-frustrated magnetic materials and the spin ice ground state in pyrochlore magnets.


Ginsberg, Donald Maurice [1969]
Affiliation not available
Citation: Not available


Giordano, Nicholas Joseph [1991]
Purdue University
Citation: For his seminal work on electrical conduction in one and two dimensional systems, including his fundamental studies of weak localization, electron-electron interactions, conductance fluctuations, and super-conductivity in these systems.


Girardeau, Marvin D, Jr. [1978]
University of Oregon
Citation: Also approved by the Division of Chemical Physics.


Girvin, Steven Mark [1989]
Yale University
Citation: For theoretical contributions to the understanding of the fractional quantum Hall effect.


Gittleman, Jonathan I [1981]
RCA Laboratories
Citation: Not available


Giuliani, Gabriele F. [2006]
Purdue University
Citation: For his many contributions to the theory of the electron liquid and in particular to its modern formation in terms of many-body local fields.


Glazman, Leonid I. [1997]
University of Minnesota
Citation: For contributions to theories of electron transport and correlations in mesoscopic and low dimensional systems.


Glembocki, Orest Jaroslaw [1996]
Naval Research Laboratory
Citation: For contributions in the field of optical properties of solids, especially photoreflectance of semiconductor microstructures.


Glyde, Henry Russell [1987]
University of Delaware
Citation: For fundamental and continuing contributions to the understanding of dynamics of quantum solids and fluids and of the nature of anharmonic phonons in solids.


Goldbart, Paul Mark [2001]
University of Illinois
Citation: For fundamental contributions to the theory of disordered solids and to the elucidation of the role of geometric phases in mesoscopic systems.


Goldberg, Bennett [2008]
Boston University
Citation: For the development and application of nanoscale optical spectroscopy to semiconductors and biological systems and for the commitment to improving urban education.


Goldburg, Walter I [1975]
University of Pittsburgh
Citation: Not available


Goldenfeld, Nigel David [1995]
University of Illinois
Citation: For his contribution to theory of non equilibrium systems, and pairing states in high temperature superconductivity.


Golding, Brange, Jr. [1980]
Michigan State University
Citation: Not available


Goldman, Alan Ira [1999]
Iowa State University
Citation: For X-ray diffraction measurements elucidating the nature of quasicrystals, and for advances in magnetic X-ray scattering.


Goldman, Allen Marshall [1984]
University of Minnesota, Minneapolis
Citation: For fundamental experimental investigation of the superconducting state using thin film techniques which have led to discoveries relating both to the dynamics of superconductors and to the superconducting phase transition.


Goldman, Vladimir Joseph [1998]
State University of New York
Citation: For experimental studies of quantum Hall systems.


Golubovic, Leonardo [2005]
West Virginia University
Citation: For seminal contributions to the theory of condensed matter systems including prediction and elucidation of the properties of novel partially ordered phases in Liquid Crystal Elastomers and DNA-lipid membrane complexes.


Goodkind, John M. [1986]
University of California, San Diego
Citation: For the investigation of the properties of liquid and solid, 3He, and for contributions to the development and application of nuclear cooling and superconducting devices.


Goodman, Bernard [1969]
University of Cincinnati
Citation: Not available


Goodrich, Roy Gordon [1993]
Affiliation not available
Citation: For pioneering studies of the Fermi surface properties of metals and low-temperature superconductors and artificially-layered thin-film structures.


Gor'kov, Lev Petrovich [1997]
Florida State University
Citation: For the quantum field formulation of the theory of superconductivity.


Gornik, Erich [1994]
Technical University of Muenchen
Citation: For contributions in semiconductor physics, particularly far-infrared emission spectroscopy, development of tunable far-infrared semiconductor laser, and tunneling spectroscopy in low-dimensional structures.


Gossard, Arthur C [1974]
Bell Laboratories
Citation: Not available


Govorov, Alexandre O. [2012]
Ohio State University
Citation: For contributions to the understanding of optical properties of semiconductor and metal nanostructures, including elucidation of the optical Aharonov-Bohm and nonlinear Fano effects


Graham, Robert A [1982]
Affiliation not available
Citation: Not available


Granato, Andrew Vincent [1969]
Affiliation not available
Citation: Not available


Gray, Kenneth E. [1998]
Argonne National Laboratory
Citation: For contributions to the understanding of non-equilibrium superconductivity.


Greene, Laura H. [1993]
Affiliation not available
Citation: For work on the physics of novel materials, in particular physical properties of high-temperature superconductors and artificially-layered thin-film structures.


Greene, Richard L. [1980]
University of Maryland
Citation: Not available


Grest, Gary Stephen [1989]
Sandia National Laboratories
Citation: For contributions to the understanding of the kinetics of domain growth, amorphous glasses, disordered magnets, and polymer dynamics.


Greytak, Thomas J [1981]
M.I.T.
Citation: Not available


Greywall, Dennis Stanley [1986]
No Company Provided
Citation: For setting standards of precision and elegance in the study of quantum fluids and solids at low and ultra-low temperatures.


Grier, David [2013]
New York University
Citation: For development of the techniques of holographic trapping and optical microscopy and their use in condensed matter physics.


Griffin, Allan [2003]
University of Toronto
Citation: For fundamental theoretical studies on Bose-Einstein condensation and the collective excitations in superfluid He4 and trapped atomic gases.


Griffiths, Robert Budington [1968]
Affiliation not available
Citation: Not available


Grimes, Charles C. [1980]
No Company Provided
Citation: Not available


Grimmeiss, Hermann G. [1989]
Lund Univ/Lund Inst of Tech
Citation: For experimental investigations of impurities in semiconductors through the innovative use of a wide range of techniques.


Grinstein, Geoffrey Mark [1985]
IBM T.J. Watson Research Center
Citation: For contributions to the understanding of the phases and phase transitions of quenched disordered systems and liquid crystals.


Griscom, David Lawrence [1995]
Naval Research Laboratory
Citation: For contributions to the analysis and interpretation of electron spin resonance spectra of transition-group ions, radiation-induced point defects, and ferromagnetic precipitates in glass.


Grobman, Warren D [1982]
Affiliation not available
Citation: Not available


Gross, Bernhard [1976]
University of Vienna - Austria
Citation: Not available


Gruner, George [1987]
Affiliation not available
Citation: For his experimental studies of the Kondo problem and the dynamics of charge-density-wave and spin-density-wave ground states.


Gruzberg, Ilya [2016]
The Ohio State University
Citation: For contributions to the theory of critical phenomena near Anderson localization-delocalization transitions in disordered electronic systems, including the integer quantum Hall transition and its variants in different symmetry classes.


Gubser, Donald U. [1980]
Naval Research Laboratory
Citation: Not Provided


Gumbs, Godfrey Anthony [2004]
CUNT - Hunter College
Citation: For seminal contributions to the understanding of the optical and transport properties of semiconductor heterostructures and the electronic properties of Fibonacci superlattices.


Gunnarsson, Olle R. L. [1999]
Max Planck Institute
Citation: For work on the theory of photoemission spectroscopy.


Gunton, James Douglas [1990]
Lehigh University
Citation: For contributions to the field of the kinetics of first-order phase transitions, particular through numerical studies of microscopic and continuum models or phase separation.


Gurevich, Alexander V. [2008]
Florida State University
Citation: For significant contributions to the theory of superconductivity, particularly the effect of crystalline defects on critical currents, vortex dynamics, and upper critical fields of high-temperature superconductors and MgB2.


Gusev, Vitalyi [2016]
Universityersité du Maine
Citation: For fundamental contributions to the study of nonlinear acoustics of mesostructured media, and laser-induced ultrafast opto-acoustic phenomena in semiconductors and nanostructured materials.


Gustafsson, Torgny [1990]
Rutgers University
Citation: For development of novel and exciting techniques in surface science.


Guyon, Etienne M.P. [1991]
Ecole Normale Superieure
Citation: For his contributions to the fields of superconductivity, liquid crystals, hydrodynamic instabilities, and disordered media.


Haddon, Robert Cort [1995]
AT&T Bell Laboratories
Citation: For work on organic electronic materials, including the prediction and discovery of superconductivity in alkali-doped carbon-60.


Hagedorn, Fred Bassett [1978]
Bell Laboratories
Citation: Not available


Haldane, Frederick Duncan Michael [1986]
Princeton Univ
Citation: For his contributions, both analytic and numerical, to the solution of difficult many-body problems such as the Anderson model, the quantum spin chain and the-fractionally quantized Hall effect.


Haller, Eugene E. [1986]
University of California, Berkeley
Citation: For pioneering contributions to the development of ultrapure semiconductors and significant investigations of the spectroscopy of novel defects in them.


Haller, Kurt [1978]
University of Connecticut
Citation: Not available


Halley, J. Woods [1998]
University of Minnesota
Citation: For contributions to the theory of superfluidity and to the theory of electrode-electrolyte interfaces.


Hallock, Robert Bruce [1981]
University of Massachusetts
Citation: Not available


Halperin, Bertrand i [1972]
Bell Telephone Laboratories
Citation: Not available


Halperin, William P. [1995]
Northwestern University
Citation: For contributions to our understanding of liquid and solid 3He, particularly the discovery of magnetic order in solid 3He, and fundamental investigations of collective excitations in the superfluid phases.


Hamann, Donald R [1972]
Bell Laboratories
Citation: Not available


Hamilton, Alex [2014]
University of New South Wales
Citation: For contributions to the understanding of quantum confined holes in semiconducting low dimensional structures.


Hamilton, John Frederick [1984]
No company provided
Citation: For his many contributions to understanding the physical phenomena involved in the photographic latent image, in catalysis by small metal clusters and in the reconstruction of ionic crystal surfaces.


Hammel, Peter C. [1998]
Los Alamos National Laboratory
Citation: For nuclear magnetic resonance studies of superconducting cuprates.


Hanke, Werner [2011]
Universitat Wurzburg
Citation: For the theory of quantum many-body effects and optical properties of materials.


Hannon, James Patrick [1997]
Rice University
Citation: For theories of Mvssbauer gamma-ray optics and of resonant X-ray magnetic scattering.


Hansma, Paul K. [1989]
University of California, Santa Barbara
Citation: For contributions to the understanding of the electron and phonon structure of solids.


Hardy, Walter Newbold [2002]
University of British Columbia
Citation: For seminal contributions to high Tc superconductivity, and for pioneering spectroscopic studies of hydrogen using NMR, microwave and Raman techniques.


Hargrove, Logan E [1982]
Affiliation not available
Citation: Not available


Harman, Theodore C [1969]
Massachusetts Institute of Technology Lincoln Laboratory
Citation: Not available


Harmon, Bruce N. [1989]
Iowa State University
Citation: For theoretical contributions to the understanding of the electron and phonon structure of solids.


Harris, Arthur Brooks [1989]
University of Pennsylvania
Citation: For contributions to the understanding of random systems.


Harrison, Michael J [1972]
University of California at Los Angeles
Citation: Not available


Harrison, Neil [2006]
Los Alamos National Laboratory
Citation: For pioneering experimentation on the electronic structure and magnetism of strongly correlated electron systems in very strong magnetic fields.


Harrison, Walter A [1968]
Affiliation not available
Citation: Not available


Hart, Howard R, Jr. [1972]
General Electric
Citation: Not available


Hartmann, Sven R [1969]
Affiliation not available
Citation: Not available


Hartstein, Allan Mark [1985]
IBM T.J. Watson Research Center
Citation: For pioneering research in the electronic properties of semiconductor systems with reduced dimensionality, in particularly the discovery of 2D impurity bands and the fabrication and investigation of 1D MOSFETS.


Hasan, Zahid [2013]
Princeton University
Citation: For the experimental discovery of three dimensional topological insulators.


Haskel, Daniel [2015]
Argonne National Laboratory
Citation: For development and use of advanced polarized x-ray techniques for studies of magnetism and electron-lattice coupling in correlated electron systems, particularly under extreme conditions.


Hastings, Jerome Biller [1991]
SLAC National Accelerator Laboratory
Citation: For his research in nuclear resonant scattering of X-rays and neutrons and significant contributions in Synchrotron Radiation instramentation.


Hathaway, Kristl B. [1993]
Affiliation not available
Citation: For elucidating the relationships between magnetism, structure, and the elastic properties of amorphous and crystalline materials.


Hau, Lene V. [2012]
Harvard University
Citation: For slowing, stopping, and storing light pulses in Bose-Einstein condensates of laser cooled atoms and converting light into a matter imprint then resurrecting the light


Hauser, Joachim Jacques [1981]
Bell Laboratories
Citation: Not available


Hawrylak, Pawel [1996]
NRC of Canada
Citation: For theoretical work on the role of many body effects in the optical properties of low dimensional electronic systems.


Hayter, John Bingley [1991]
Affiliation not available
Citation: For his contributions to the development of neutron spin-echo spectrometry and the field of neutron small-angle scattering from colloids.


Hebard, Arthur F. [1993]
University of Florida
Citation: For experimental studies of two-dimensional superconductors and for the discovery of superconductivity in the fullerenes.


Heffner, Robert Haag [2001]
Los Alamos National Laboratory
Citation: For the discovery and insightful study of complex magnetic and superconducting states in correlated electron materials using muon-spin-relaxation/rotation techniques.


Heiblum, Morhehai [1990]
Weizmann Institute of Science
Citation: For the demonstration and investigation of hot-electron ballistic transport in semiconductors and for contributions to epitaxial growth by molecular-beam epitaxy.


Heiman, Donald E. [1996]
Massachusetts Institute of Technology
Citation: For studies of excitons in the quantum Hall regime and exchange interactions in magnetic semiconductors, using optical spectroscopy at the extremes of high magnetic fields and low temperatures.


Heine, Volker [1987]
University of Cambridge
Citation: For his leading contributions to the theory of the electronic structure of solids.


Heiney, Paul A [2001]
University of Pennsylvania
Citation: For his contributions to our understanding of the structure, defects, disorder, and phase transitions in quasicrystals and fullerenes.


Heinrich, Andreas J. [2012]
IBM Almaden Research Center
Citation: For the development of scanning tunneling microscope methods to study individual magnetic atoms by spin-excitation spectroscopy and nanosecond pump-probe techniques


Hemley, Russell Julian [1995]
Carnegie Institute
Citation: For advancing ultra high-pressure of condensed matters and for discovering new materials, transitions, and properties at high pressures.


Henley, Christopher Lee [1996]
Cornell University
Citation: For theoretical contributions to the understanding the structure and physics of quasicrystals and related crystalline structures.


Henrich, Victor E. [1983]
Yale University
Citation: For imaginative use of modern and sophisticated experimental tools on the study of electronic properties of transition metal oxide surfaces.


Henry, Charles H [1972]
Bell Laboratories
Citation: Not available


Herbst, Jan F. [1985]
GM Research and Development Center
Citation: For research on the electronic and magnetic structure of rare earth materials.


Heremans, Joseph Pierre [1987]
University of California, Santa Barbara
Citation: For pioneering work in the thermal conductivity of low-dimensional materials and electronic magnetostriction; and for the study of electronic and thermal properties of marrow-gap semiconductors, semimetals, and graphite intercalation compounds.


Hermann, Allen Max [1984]
University of Colorado, Boulder
Citation: For contributions to basic research on transport properties in solids and applied research culminating in the invention and development of a solid state battery widely used in cardiac pacemakers.


Hersh, Herbert N [1975]
Zenith Radio Corporation
Citation: Not available


Hess, Harold Frederick [1997]
Bell Laboratories
Citation: For contributions in magnetic evaporative cooling of ions and scanning probe microscopy.


Hess, Karl [1994]
University of Illinois
Citation: For contributions to nonlinear electronic transport in semiconductors and in quantum well heterostructures.


Hill, John P. [2002]
Brookhaven National Laboratory
Citation: For novel x-ray scattering studies of cuprate, manganite and other correlated electronic systems.


Hillebrecht, Franz Ulrich [1998]
D|sseldorf Universitaet
Citation: For contributions to the development of spin polarized photoemission.


Himpsel, Franz Joseph [1985]
University of Wisconsin, Madison
Citation: For his principal role in the development of photoemission and inverse photoemission into powerful techniques for the determination of energy band dispersion of electrons in bulk solids and at surfaces.


Hirsch, Jorge Eduardo [1990]
University of California, San Diego
Citation: For contributions to the development of numerical simulations in interacting fermion systems, especially in two dimensions, and for his studies of strongly interacting electron systems.


Hirschfeld, Peter Joseph [2004]
University of Florida
Citation: For distinguished contributions to the theory of disordered unconventional superconductors which helped to identify d-wave pairing in the high-temperature superconductors.


Ho, John T. [1990]
State University of New York, Buffalo
Citation: For experimental studies that have enhanced our understanding of phase transitions and critical phenomena in magnetic systems, liquid crystals, and biomembranes.


Ho, Kai Ming [1995]
Iowa State University
Citation: In recognition of his contributions to electronic structure calculation for the study of surface geometry's and lattice dynamics, and for his work on photonic band gap materials.


Ho, Paul Siu-Chung [1983]
University of Texas, Austin
Citation: For his contributions to the basic understanding and technical development of electromigration in thin films and silicide-silicon interfaces.


Ho, Tin-Lun [1999]
Ohio State University
Citation: For contributions to the understanding of superfluids.


Hohenberg, Pierre C [1972]
Bell Laboratories
Citation: Not available


Hohenemser, Christoph [1984]
Clark University
Citation: For application of high precision perturbed angular correlation experiments to elucidate critical behavior, producing new insights into spin conservation and spin fluctuations in magnetic materials.


Holcomb, Donald F [1972]
Cornell University
Citation: Also approved by the Division of Chemical Physics.


Holonyak, Nick, Jr. [1972]
University of Illinois
Citation: Not available


Holtzberg, Frederic [1975]
IBM T.J. Watson Research Center
Citation: Not available


Homes, Christopher [2007]
Brookhaven National Laboratory
Citation: For seminal contributions to the development of infrared spectroscopy, and its application to strongly correlated systems.


Hooper, Henry O [1972]
Wayne State University
Citation: Also approved by the Division of Chemical Physics.


Hopfield, John J [1969]
Princeton University
Citation: Not available


Horn, Paul M [1981]
IBM
Citation: Not available


Houghton, Anthony [1993]
Affiliation not available
Citation: For contributions to the theory of superconductivity, critical phenomena, and many body systems.


Houston, Jack E [1982]
Affiliation not available
Citation: Not available


Howard, Richard E. [1993]
Agere Systems
Citation: For the innovative use of microfabrication to explore transport in mesoscopic systems.


Hsiang, James Chen, Tsang [1987]
IBM T.J. Watson Research Center
Citation: For his creative use of Raman spectroscopy in characterizing magnetic semiconductors, charge-density waves, surfaces and interfaces, and time-dependent phenomena, and for his contributions to the techniques.


Hsiang, Thomas Y. [1991]
Affiliation not available
Citation: For his studies of non-equilibrium superconductivity, picosecond phenomena, and noise in silicon devices and superconductors.


Hu, Chia-Ren [2003]
Texas A&M University
Citation: For initiating the theory of midgap states in high-T_c and other unconventional superconductors, and for studies of the transport properties of type-II superconductors and the textural properties of superfluid ^3He.


Hu, Evelyn Lynn [1995]
University of California, Santa Barbara
Citation: For contributions to the fabrications and study of low dimensional structures.


Huang, Chao-Yuan [1983]
National Taiwan Normal University
Citation: For contributions to spin-lattice relaxation; thermal fluctuations and pair-breaking times in superconducting microbridges; muon spin relaxation in magnets; and anomalous properties in magnetic superconductors at high pressures and magnetic fields.


Huang, Cheng-Cher [1993]
University of Minnesota, Minneapolis
Citation: For fundamental investigations of phase transitions in liquid crystals, in particular the thermal properties of substrate-free two-dimensional systems.


Huang, John S. [1990]
Affiliation not available
Citation: For contributions to our understanding of complex fluids, including micellar, micromulsion, and colloidal systems.


Hubbard, Paul S [1972]
University of North Carolina
Citation: Not available


Huberman, Bernardo A [1981]
Xerox
Citation: Not available


Hughes, Robert C [1982]
Affiliation not available
Citation: Not available


Hurlimann, Martin Dominik [2005]
Schlumberger - Doll Research
Citation: For development of nuclear magnetic resonance methods based on diffusion and relaxation to characterize fluid saturated porous media with practical application in ex-situ examination of earth formations.


Huse, David A. [1992]
Princeton University
Citation: For theoretical contributions to the statistical mechanics of glasses, disordered systems, surfaces, and quantum magnets.


Hussain, Zahid [2004]
Lawrence Berkeley National Laboratory
Citation: For major scientific contributions in the physics of materials using synchrotron radiation spectroscopies, and for enabling discoveries by others through the development of cutting-edge instrumentation.


Iafrate, Gerald J. [1990]
North Carolina State University
Citation: For the development of fundamental concepts and applications of the physics of submicron and ultrasubmicron devices.


Imai, Takashi [2008]
McMaster University
Citation: For important studies of quantum magnetism and superconductivity using NMR techniques.


Imry, Yoseph [1985]
Weizmann Institute of Science
Citation: For work on phase transitions, transport and quantum effects in disordered and/or small systems.


Ingersent, Kevin [2009]
University of Florida
Citation: For contributions to the theory of strongly correlated electron systems.


Ioffe, Lev B. [2006]
Rutgers University
Citation: For significant contributions to the theory of spin glasses, without quenched disorder, disordered superconductors, high-Tc superconductors and the discovery of Josephson networks with topological order parameter.


Irena, Stankiewicz Jolanta [2006]
Universidad de Zaragoza, Spain
Citation: For significant contributions to the physics of semimagnetic semiconductors and pioneering semiconductor research in Venezuela.


Isaacs, Eric D. [2000]
Bell Laboratories
Citation: For pioneering work in the application of synchrotron-based magnetic X-ray scattering to condensed matter physics.


Jackson, Howard E. [2000]
University of Cincinnati
Citation: For innovative light scattering studies combining high spectral and spatial resolution.


Jackson, Kenneth A. [1988]
Affiliation not available
Citation: For contributions to crystal growth theory and for experimental investigations of growth and instability phenomena.


Jackson, Shirley Ann [1986]
Rensselaer Polytechnic Institute
Citation: For contributions to the theory of charge density wave instabilities, the channeling of heavy ions in solids, and the behavior of 2-D electrons on helium films.


Jaeger, Heinrich Martin [2002]
University of Chicago
Citation: For fundamental contributions to the study of granular systems, mesoscopic self assembly, and flux flow in superconductors.


Jain, Jainendra Kumar [1997]
State University of New York, Stony Brook
Citation: For the "Composite Fermion" theory of the fractional quantum Hall effect.


Jaklevic, Robert [1975]
Ford Motor Company
Citation: Also approved by the Division of Atomic, Molecular, and Optic Physics.


Jasnow, David M. [1990]
University of Pittsburgh
Citation: For contributions to our knowledge of critical phenomena and the statics and dynamics of interfaces and domain growth.


Jaswal, Sitaram S [1982]
Affiliation not available
Citation: Not available


Jayaprakash, Ciriyam [2001]
Ohio State University
Citation: For distinguished work on the statistical physics of Josephson junction arrays, crystal shapes, the two-impurity Kondo problem, and classical non-equilibrium systems.


Jeffries, Carson D [1982]
Affiliation not available
Citation: Not available


Jha, Sudhanshu S. [1987]
Indian Institute of Technology, Bombay
Citation: For his theoretical studies of the optical properties of semiconductors and metals; in particular, the elucidation of the mechanisms responsible for second-harmonic generation and electronic Raman scattering.


Jiang, HongWen [2002]
University of California, Los Angeles
Citation: For fundamental experimental studies of the ground-state phases of the two dimensional electron gas, including the first identification of the Hall metal state in a half-filled Landau level.


Jiang, Samuel J. [2009]
Argonne National Laboratory
Citation: For experimental contributions to the study of magnetotransport and magnetic coupling phenomena in magnetic nanostructures.


Jin, Changqing [2014]
Chinese Academy of Sciences
Citation: For pioneering high pressure synthesis of new materials and the discovery of LiFeAs.


Joannopoulos, John Dimitrs [1983]
Massachusetts Institute of Technology
Citation: For outstanding contributions to research and to developing young theorists in condensed matter physics.


Johansson, Borje [2014]
Royal Institute of Technology
Citation: For contributions to the understanding of the electronic properties of lanthanide and actinide materials and for service to the advancement of physics.


John, Sajeev [2002]
University of Toronto
Citation: For pioneering contributions to studies of classical wave localization in disordered systems and to the theory of photonic band gap systems.


Johnson, Leo F [1972]
Bell Laboratories
Citation: Not available


Johnson, Peter D. [1991]
Dartmouth College
Citation: For his contributions to the development of electron spectroscopies for the study of the electronic structure of metallic surfaces.


Johnson, Robert A. [1980]
California State University - Dominguez Hill
Citation: Not Provided


Johnston, David C. [1988]
Iowa State University
Citation: For the imaginative development of new materials and for their characterization.


Jones, Barbara A. [2002]
IBM Almaden Research Center
Citation: For outstanding contributions to theories of impurity magnetism and spin transport in magnetic nanostructures.


Jones, Clifford K [1975]
Westinghouse Research Laboratories
Citation: Not available


Jonker, Berend Thomas [2003]
Naval Research Laboratory
Citation: For contributions to the field of magneto-electronics, including low dimensional magnetism in metals, spin-dependent carrier localization in semiconductors, and spin injection, scattering, and ferromagnetic order in semiconductor heterostructures.


Jorgensen, James D. [1989]
Affiliation not available
Citation: For the determination of crystal structures from high-resolution neutron-diffraction data.


Jose, Jorge V. [1997]
Northeastern University
Citation: For contributions to the understanding of low dimensional critical phenomena and quantum chaos.


Joseph, Richard I [1975]
Johns Hopkins University
Citation: Not available


Joynt, Robert [2004]
University of Wisconsin, Madison
Citation: For outstanding contributions to the theory of quantum hall effect, heavy fermion materials and high-Tc superconductivity.


Julian, Stephen R. [2012]
University of Toronto
Citation: For research on unconventional metallic and superconducting states of heavy fermion metals and strongly correlated oxides


Kabler, Milton N [1973]
Not available
Citation: Not available


Kallin, Catherine [1994]
McMaster University
Citation: For contributions to the understanding of correlations between electrons in low-dimensional systems.


Kamenev, Alex [2013]
University of Minnesota, Minneapolis
Citation: For advancing the methods of quantum kinetic theory.


Kamien, Randall David [2001]
University of Pennsylvania
Citation: For significant contributions to the theory of polymeric and liquid crystalline systems and for elucidating the role of chirality in the determination of their structure.


Kamimura, Hiroshi [1988]
Tokyo University of Science
Citation: For contributions to the theoretical understanding of electron states in solid state systems and for promoting closer ties between the Physical Society of Japan and the American Physical Society.


Kaminow, Ivan P [1975]
Bell Laboratories
Citation: Not available


Kaminski, Adam [2013]
Iowa State University
Citation: For angle-resolved photoemission spectroscopy studies of unconventional superconductors.


Kane, Charles Lewis [2006]
University of Pennsylvania
Citation: For significant contributions to the theory of electronic transport in low-dimensional systems, including Luttinger liquids, the quantum Hall effect, carbon nanotubes and graphene.


Kao, Yi-Han [1984]
State University of New York, Buffalo
Citation: For extensive studies of the electronic properties of semimetals, size effects, and interactions between microbridge Josephson junctions.


Kapitulnik, Aharon [1994]
Stanford University
Citation: For contributions to the understanding of high Tc superconductors, particularly the vortex lattice and time-reversal symmetry.


Kapon, Eli [2001]
Ecole Polytechnique Federale du Lausanne
Citation: For his fundamental contributions to the understanding of the electronic and optical properties of low-dimensional semiconductor systems.


Karo, Arnold M [1968]
Affiliation not available
Citation: Not available


Kartheuser, Edward P. J. [1984]
University of de Leige
Citation: For his timely contributions to the theory of ionic crystals, semiconductors, and normal and superconducting metals.


Kash, Jeffrey Alan [1996]
IBM T.J. Watson Research Center
Citation: For applications of optical techniques to the understanding of elementary excitations in III-V semiconductors and semiconductor structures.


Kastner, Marc Aaron [1981]
Massachusetts Institute of Technology
Citation: Not available


Katiyar, Ram S. [2009]
University of Puerto Rico
Citation: For contributions to the fabrication and characterization of ferroelectric thin films.


Kaus, Peter E [1969]
University of California, Riverside
Citation: Not available


Kay, Eric [1990]
Affiliation not available
Citation: For contributions to the study of nucleation and growth phenomena and their relation to electrical, optical, and magnetic properties of a variety of thin films.


Kazmerski, Lawrence Lee [1987]
NREL
Citation: For contributions to the understanding of the relationships among the electrical and chemical properties and the performance of photovoltaic devices.


Keiter, Hellmut [1999]
Universitdt Dortmund
Citation: For developing tools in the many-body theory of strongly-correlated electron systems.


Kelley, Paul L [1975]
Massachusetts Institute of Technology
Citation: Not available


Kelton, Kenneth Franklin [2004]
Washington University
Citation: For contributions to the fundamental understanding of nucleation and to the study of quasicrystals and their applications.


Kempa, Krzysztof [2016]
Boston College
Citation: For pioneering contributions to understanding basic physics of plasmons in condensed matter systems.


Kennedy, Thomas Albert [1995]
Naval Research Laboratory
Citation: For advances in the identification and properties of defects in semiconductors.


Kepler, Raymond G [1982]
Affiliation not available
Citation: Not available


Kes, Peter [2008]
Leiden University
Citation: For his outstanding contributions to physics of vortex matter in disordered superconductors.


Ketchen, Mark B. [1989]
IBM T.J. Watson Research Center
Citation: For applications of VLSI fabrication techniques to problems of condensed matter physics.


Ketterson, John B [1969]
Argonne National Laboratory
Citation: Not available


Kevan, Karry [1972]
Wayne State University
Citation: Also approved by the Division of Chemical Physics.


Kevan, Stephen D. [1995]
University of Oregon
Citation: For his pioneering work in the use of high-resolution photoemission spectroscopy (synchrotron radiation) to elucidate the interplay between electronic properties and structure at surfaces.


Khomskii, Daniel [2008]
University of Koeln
Citation: For important contributions to the theory of strongly correlated electron systems, especially the study of orbital ordering.


Kiefl, Robert Francis [2004]
University of British Columbia
Citation: For outstanding contributions to our understanding of the properties of materials through the use of muons.


Kikkawa, James M. [2013]
University of Pennsylvania
Citation: For optical spectroscopy of excitations in nanomaterials.


Kim, Philip [2007]
Columbia University
Citation: For the creation of single layer graphite (graphene) and the study of its unusual two-dimensional electronic transport properties.


Kim, Yong-Baek [2012]
University of Toronto
Citation: For contributions to the theory of quantum spin liquids in frustrated magnets and correlated electron materials


Kim, Young-June [2016]
University of Toronto
Citation: For contributions to the understanding of various quantum materials using X-ray and neutron scattering techniques, notably the development of resonant inelastic X-ray scattering and its applications to cuprates and iridates.


Kimball, Clyde W [1975]
Northern Illinois University
Citation: Not available


Kimerling, Lionel Cooper [1987]
Massachusetts Institute of Technology
Citation: For fundamental contributions to the measurement and understanding of the electrical properties of defects in semiconductors and the role of charge state and electronic stimulation in their structure and reactivity.


Kinch, Michael Anthony [1988]
Affiliation not available
Citation: For contributions to transport and infrared physics of narrow band-gap semiconductors and their application to infrared devices.


King, James C. [1983]
No Company Provided
Citation: For imaginative basic research on interactions between radiation induced and lattice defects, impurities and the anelastic properties of quartz leading to the development of the synthetic quartz resonators now in use.


Kirkpatrick, Edward S. [1980]
No Company Provided
Citation: Not Provided


Kirkpatrick, Theodore Ross [1994]
University of Maryland, College Park
Citation: For studies in condensed matter theory including light scattering far from equilibrium, long-time tails, acoustic localization, structural glasses, and metal-insulator transitions.


Kirtley, John Robert [1988]
Stanford University
Citation: For theoretical and experimental contributions elucidating electron tunneling and the interaction of electrons with photons and phonons.


Kiryukhin, Valery D. [2014]
Rutgers University
Citation: For use of x-ray and neutron scattering to understand multiferroics, colossal magnetoresistance and low-dimensional magnetism.


Kivelson, Steven Allan [1997]
University of California, Los Angeles
Citation: For theoretical contributions to the understanding of conducting polymers, the quantum Hall effect, and high temperature superconductivity.


Klapwijk, Teunis Martien [2001]
Delft University of Technology
Citation: For seminal contributions to the field of nonequilibrium and mesoscopic superconductivity.


Klein, Barry M. [1995]
University of California, Davis
Citation: For his contributions to the theory of electronic and vibrational properties of solids, and for building and leading dynamic research groups.


Klein, Claude A [1968]
Affiliation not available
Citation: Not available


Klein, Miles Vincent [1969]
Affiliation not available
Citation: Not available


Kleinman, Leonard [1971]
University of Texas
Citation: Not available


Klemm, Richard Andrew [1994]
Argonne National Laboratory
Citation: For work on the theory of anisotropic and layered superconductors in magnetic fields, involving both microscopic and phenomenological models.


Kliewer, Kenneth L [1981]
Iowa State University
Citation: Not available


Knotek, Michael L. [1987]
Affiliation not available
Citation: For his contributions to the understanding of photon stimulated desorption through a series of experimental and theoretical analyses.


Koch, Roger Hilsen [1992]
Affiliation not available
Citation: For his contributions to our understanding of noise in physical systems and the experimental identification of a new glassy phase in superconductors.


Koenraad, Paul [2014]
Eindhoven University of Technology
Citation: For elucidating the spatial characteristics of localized states in semiconductors via scanning tunneling microscopy and single-dot spectroscopy.


Kogan, Vladimir G. [1999]
Iowa State University
Citation: For theoretical studies of magnetic properties of anisotropic type-II superconductors.


Kojima, Haruo [2005]
Rutgers University
Citation: For experimental discoveries of unusual low-temperature excitations and dynamics in quantum liquids and solids, especially superfluid 3He.


Kondo, Jun [2008]
21st Century Medicine Inc
Citation: For the discovery of the mechanism for the resistance minimum in metals with magnetic impurities, universally known as "the Kondo effect".


Kono, Junichiro [2009]
Rice University
Citation: For contributions to optical processes in semiconductor nanostructures, including magneto-optical studies of Aharonov-Bohm physics in carbon nanotubes.


Kono, Kimitoshi [2016]
RIKEN Center for Emergent Matter Science
Citation: For groundbreaking experiments on the dynamics of strongly correlated 2-D electron systems and the observation of new collective phenomena in helium using surface electron states.


Koon, Norman C. [1980]

Citation: Not Provided


Korenman, Victor [1982]
Affiliation not available
Citation: Not available


Korepin, Vladimir E. [1996]
State University of New York, Stony Brook
Citation: For contributions to the understanding of strongly correlated electrons through the study of exactly solvable models.


Korringa, Jan [1972]
Ohio State University
Citation: Not available


Kortan, Ahmet Refik [1996]
AT&T Bell Laboratories
Citation: For experimental studies of phase transitions on surfaces, in liquid crystals, and in intercalated systems; and work on new materials such as quasicrystals and fullerenes.


Koshelev, Alexei Evgenievich [2003]
Argonne National Laboratory
Citation: For important theoretical contributions to the physics of vortex matter in superconductors.


Kossler, William John [1998]
College of William & Mary
Citation: For pioneering work using muon spin rotation techniques in condensed matter physics.


Kosterlitz, John M [1992]
Brown University
Citation: For his work on the theory of phase transitions in low-dimensional systems.


Kotliar, B. Gabriel [2000]
Rutgers University
Citation: For development of the dynamical mean field method and its application to strongly correlated electron systems.


Kotthaus, Jorg Peter [1989]
Univ Munich
Citation: For contributions to the understanding of the electronic properties of confined systems in both one and two dimensions.


Kravchenko, Sergey [2008]
Northeastern University
Citation: For significant contributions to the field of metal-insulator transitions of electrons confined to two dimensions in silicon.


Krebs, James John [1983]

Citation: For important original contributions in the field of magnetic resonance in semiconductor materials, and particularly for studies of deep level centers in GaAs and InP.


Kressel, Henry [1974]
RCA Laboratories
Citation: Not available


Kreyssig, Andreas [2016]
The Ames Laboratory
Citation: For elucidating the relationships between the structural, magnetic, and superconducting properties of iron-arsenide hightemperature superconductors.


Krishnamurthy, Hulikal [2015]
Indian Institute of Science
Citation: For outstanding contributions to condensed matter theory, especially strongly correlated phenomena in fermionic and bosonic systems, universal behavior in quantum impurity physics, and colossal magneto-resistance.


Kropschot, Richard H [1977]
National Bureau of Standards, Boulder
Citation: Not available


Krotscheck, Eckhard [1996]
Texas A&M University
Citation: For contributions to the microscopic theory of quantum fluids , films, clusters and mixtures, and the extension of variational methods to inhomogeneous quantum systems.


Krusin-Elbaum, Lia [1993]
City College of New York
Citation: For fundamental work on the magnetic properties of high temperature superconductors.


Kubo, Ryogo [1982]
Affiliation not available
Citation: Not available


Kumar, Narendra [1994]
Indian Institute of Science
Citation: For contributions to condensed matter physics, notably to quantum transport and conductance fluctuations in disordered systems.


Kunchur, Milind N. [2012]
University of South Carolina
Citation: For development of short-pulse techniques and studies of dissipation in superconductors


Kunz, Albert B [1976]
DuPont Corporation
Citation: Not available


Kushida, Toshimoto [1975]
Ford Motor Company
Citation: Not available


Kusmartsev, Feodor V. [2014]
Loughborough University
Citation: For theoretical contributions to many areas of condensed matter physics, particularly semiconductor physics and superconductivity.


Kwok, Wai-Kwong [1999]
Argonne National Laboratory
Citation: For pioneering studies of the statics and dynamics of the vortex state in superconductors.


Lagally, Max G. [1980]
University of Wisconsin, Madison
Citation: Not Provided


Laibowitz, Robert B. [1980]
IBM T.J. Watson Research Center
Citation: Not Provided


Landau, David P [1976]
University of Georgia
Citation: Not available


Lander, Gerard H. [1980]
EITU
Citation: Not Provided


Landman, Uzi [1989]
Georgia Institute of Technology
Citation: For applications of numerical simulation modeling of both the status structure and nonequilibrium dynamics of solid surfaces, interfaces, and small clusters.


Langer, Dietrich W.J. [1972]
Aerospace Research Laboratory
Citation: Also approved by the Division of Atomic, Molecular and Optic Physics.


Langer, James Stephen [1968]
Affiliation not available
Citation: Not available


Langer, Jerzy Marian [1989]
Polish Acad of Sci
Citation: For contributions in the area of defects and recombination phenomena in semiconductors and ionic solids.


Langreth, David Chapman [1981]
Rutgers University
Citation: Not available


Lanzara, Alessandra [2008]
University of California, Berkeley
Citation: For important contributions to the physics of highly correlated materials using photoemission spectroscopy.


Larach, Simon [1969]
Affiliation not available
Citation: Not available


Larson, Bennett Charles [1988]
Oak Ridge National Laboratory
Citation: For x-ray scattering studies of defects in crystals and of the melting-crystallization transition.


Laughlin, Robert B. [1986]
Affiliation not available
Citation: For seminal insights into the nature of two-dimensional electrons in a magnetic field, and of the state responsible for the fractional quantum Hall effect.


Lawrence, Jonathan Mac [2006]
University of California, Irvine
Citation: For pioneering contibutions to understanding intermediate valence phenomena in correlated electron systems.


Lebed, Andrei G. [2014]
University of Arizona
Citation: For contributions to the theory of one-dimensional and quasi-one dimensional organic conductors.


LeBlanc, Marcel A.R. [1975]
University of Ottowa
Citation: Not available


Leburton, Jean-Pierre [1999]
University of Illinois
Citation: For development of methods for solving the electronic structure of quantum dots.


Lee, David Morris [1981]
Cornell University
Citation: Not available


Lee, Dunghai [1997]
University of California, Berkeley
Citation: For contributions to the understanding of the phases and phase transitions in quantum Hall systems.


Lee, Kenneth [1975]
IBM Monterey, California
Citation: Not available


Lee, Mark [2005]
Sandia National Laboratories
Citation: For experiments advancing the understanding of electron correlation and electrodynamic response in oxide superconductors, ferromagnets, Coulomb glasses, and nonlinear optical polymers.


Lee, Patrick A. [1986]
Massachusetts Institute of Technology
Citation: For outstanding contributions to the theory of many-body effects in condensed matter, especially in one and two dimensional solids with disorder.


Lee, Seunghun [2013]
University of Virginia
Citation: For contributions towards understanding spin and orbital physics in geometrically frustrated magnets using neutron scattering.


Lee, Ting-Kuo [2004]
Institute of Physics, Taiwan
Citation: For contributions to the theory of strongly correlated electrons especailly the study of pairing correlations and single particle properties in generalized t-J models.


Lee, Yoonseok [2013]
University of Florida
Citation: For high-precision ultrasound measurements in quantum liquids, and discovery of the acoustic Faraday effect and broken spin-orbit symmetry in superfluid 3He-B.


Leggett, Anthony James [1985]
University of Illinois, Urbana-Champaign
Citation: For contributions to the theory of superfluids, particularly the superfluid phases of 3He, and for use of low temperatur phenomena to give an increased understanding of the basic concepts of quantum theory.


Leibowitz, Jack R. [1980]
No Company Provided
Citation: Not Provided


Levin, Kathryn [1991]
University of Chicago
Citation: For her contributions to our understanding of strongly interacting Fermion systems.


Levine, Barry Franklin [1996]
AT&T Bell Laboratories
Citation: For creation and analysis of novel quantum well infrared photodetectors and theoretical and experimental work in non-linear optics.


Levine, Herbert [1993]
University of California, San Diego
Citation: For the development of a new theoretical approach to interfacial pattern formation, leading to new understanding of dendritic growth, fingering instabilities and fractal structures.


Levy, Jeremy [2009]
University of Pittsburgh
Citation: For contributions to the understanding of complex oxides, semiconductor spintronics, and their application to quantum information science.


Levy, Mel Philip [1995]
Tulane University
Citation: For contributions to the understanding and advancement of the mathematical foundations of density functional theory, and for revealing key properties of the exact density functional.


Levy, Peter Michael [1992]
New York University
Citation: For contributions to the theory of exchange interactions and transport properties of magnetic materials.


Lewy-Bertaut, Erwin Felix [1981]
CNRS
Citation: Not available


Liang, Keng S. [1994]
National Synchrotron Radiation Research Center
Citation: For the experimental elucidation of structure and dynamics of crystal surfaces and overlayer systems using synchrotron radiation.


Libowitz, George G [1969]
Affiliation not available
Citation: Not available


Liebenberg, Donald H. [1994]
Affiliation not available
Citation: For contributions to low temperature physics, superconductivity, and research management.


Likharev, Konstantin Konstantin [1997]
State University of New York, Stony Brook
Citation: For contributions to the theory and applications of superconducting and single-electron devices.


Lindau, Ingolf [1984]
Lund University/Lund Inst of Tech
Citation: For contributions to improved understanding of the electronic properties of solids, particularly through the application of synchrotron radiation to photoemission studies of studies of surfaces and photoionization studies of ionization cross sections.


Lindenfeld, Peter [1974]
Rutgers University
Citation: Also approved by the Forum on the History of Physics, the Forum on Physics and Society, and the Forum on Education.


Ling, Xinsheng Sean [2005]
Brown University
Citation: For his important contributions to the study of the peak effect and the order-disorder phase transition in vortex matter, and his original contributions to colloid physics and nanoscience.


Lipari, Nunzio O [1977]
Xerox Corporation
Citation: Not available


Litster, James David [1981]
Massachusetts Institute of Technology
Citation: Not available


Littlewood, Peter B. [1989]
Argonne National Laboratory
Citation: For theoretical contributions to the understanding of charge-density wave materials.


Liu, Andrea Jo-Wei [2004]
University of California, Los Angeles
Citation: For seminal contributions to the theory of charged biopolymers and of jammed systems.


Liu, Feng [2011]
University of Utah
Citation: For contributions to the theory of nanostructures and strain-induced nanoscale self-assembly.


Liu, Liu [1976]
Northwestern University
Citation: Not available


Liu, Ying [2006]
Pennsylvania State University
Citation: For contributions to the understanding of the pairing state of the superconductivity in strontium ruthenate and for innovative investigations of the destruction of global phase coherence in superconducting cylinders.


Livingston, James D [1976]
General Electric R&D Center
Citation: Not available


Lobb, Christopher John [1994]
University of Maryland
Citation: For research on phase transitions and complex dynamics in Josephson-junction arrays, unusual vortex dynamics in superconductors, and transport in inhomogeneous media.


Long, Gabrielle Gibbs [1991]
Argonne National Laboratory
Citation: For her sustained and significant contributions to the development and use of X-ray and neutron diffraction and spectroscopic techniques to studies of solids.


Loss, Daniel [2000]
University of Basel
Citation: For theoretical studies of quantum effects in mesoscopic magnets.


Loucks, Terry Lee [1969]
Affiliation not available
Citation: Not available


Lounasmaa, Olli Viktor [1986]
Affiliation not available
Citation: For contributions to experimental low-temperature physics, especially to nuclear cooling liquid 3He as a practical method, and to the discovery and measurement of nuclear ordering in metallic copper.


Lowe, Irving J [1974]
University of Pittsburgh
Citation: Also approved by the Division of Chemical Physics


Lowndes, Douglas Henderson [1984]
Oak Ridge National Laboratory
Citation: For contributions to condensed matter physics, specifically by experiments on the electronic structure of metals and by time-resolves spectroscopic studies of semiconductors.


Luban, Marshall [2007]
Iowa State University
Citation: For long-term significant contributions to condensed matter theory, including pioneering work on the Lifshitz multicritical point, on Bloch oscillations of electrons in semiconductor superlattices, and the modeling of magnetic molecules.


Lubensky, Tom C. [1985]
University of Pennsylvania
Citation: For theoretical contributions to our understanding of the properties and phase transitions of a number of condensed phases including polymers, random systems and liquid crystals.


Lucovsky, Gerald [1976]
Xerox Palo Alto Research Center
Citation: Not available


Ludeke, Rudolf [1982]
Affiliation not available
Citation: Not available


Luke, Graeme [2008]
McMaster University
Citation: For the study of exotic magnetism and superconductivity using muon spin rotation techniques.


Lukens, James E. [1999]
State University of New York, Stony Brook
Citation: For the application of the Josephson effect to the study of fundamental physical problems and the development of advanced electronic devices.


Lumsden, Mark [2015]
Oak Ridge National Laboratory
Citation: For contributions to the understanding of magnetism in iron-based superconductors using neutron scattering techniques.


Luryi, Serge [1993]
State University of New York, Stony Brook
Citation: For theory of electron transport in low-dimensional systems and invention of novel electron devices.


Lyding, Joseph W. [1997]
University of Illinois
Citation: For contributions to STM-based nanofabrication schemes using hydrogen and deuterium on silicon.


Lynch, David W [1972]
Iowa State University
Citation: Not available


Lynn, Jeffrey Whidden [1992]
National Institute of Standards and Technology
Citation: For his contributions to the study of magnetism and magnetic excitations in solids using neutron scattering.


Lynn, Kelvin G. [1988]
Washington State University
Citation: For developing variable energy positron beams for studying solid surfaces and interfaces.


Lyons, Kenneth B. [1988]
Affiliation not available
Citation: For elucidating low frequency phenomena in solids near structural phase transitions and for experimentally demonstrating their coupling to the dynamics of the critical order parameter fluctuations.


Lytle, Farrel Wayne [1984]
No company provided
Citation: For his pioneering role in the development and application of Extended X-ray Absorption edge Fine Structure(EXZFS.


MacDonald, Allan Hugh [1989]
University of Texas, Austin
Citation: For theoretical contributions to the understanding of the fractional quantum Hall effect.


Macfarlane, Roger Morton [1985]
IBM Almaden Research Center
Citation: For contributions to the development of high resolution laser spectroscopy of solids using spectral holeburning, coherent transient and r.f.-optical double resonance techniques, and to the understanding of mechanisms of optical dephasing.


Mackenzie, Andrew [2011]
University of St Andrews
Citation: For studies of the electronic structure of ruthenium oxides.


MacLaughlin, Douglas E. [1994]
University of California, Berkeley
Citation: For contributions to the study of superconductivity and magnetism in heavy-fermion compounds and alloys, high-temperature superconductors and spin glasses, using nuclear magnetic resonance and muon spin rotation techniques.


MacVicar, Margaret L. A. [1986]
Affiliation not available
Citation: For research on transition-metal superconductivity, and for innovation in education at the university level.


Madhavan, Vidya [2015]
University of Illinois, Urbana
Citation: For major contributions to the study of topological phases of electronic matter using advanced spectroscopic imaging STM.


Mahanti, Subhendra Dev [1994]
Michigan State University
Citation: For contributions toward a microscopic understanding of structural phase transitions in molecular solids and randomly intercalated layered solids.


Maier, Thomas [2015]
Oak Ridge National Laboratory
Citation: For numerical and phenomenological calculations that have provided insight into cuprate and iron-pnictide superconductors.


Majkrzak, Charles Francis [1997]
National Institute of Standards; Technology
Citation: For the contributions to neutron reflectometry and its application to the physics of magnetic multilayers.


Majumdar, Chanchal Kumar [1991]
Affiliation not available
Citation: For his significant contributions to Condensed Matter Theory and his scientific leadership.


Maki, Kazumi [1981]
University of Southern California
Citation: Not available


Maley, Martin Paul [1997]
Los Alamos National Laboratory
Citation: For contributions to the understanding of vortex dynamics and transport in superconductors.


Malozemoff, Alexis P. [1985]
American Superconductor Corp
Citation: For work in magnetism, particularly for (1) key experiments related to the structure and dynamics of domain walls in bubble materials and (2) fundamental studies of the magnetic properties of amorphous materials.


Mandelbrot, Benoit B. [1987]
Affiliation not available
Citation: For the development of fractal geometry, for recognition of its importance to many scientific disciplines, and for participation in its first applications in physics.


Mao, Hokwang [1994]
Carnegie Institute
Citation: For studies advancing both the high pressure limit and the range of techniques applicable to diamond anvil cell investigations.


Mao, Zhiqiang [2014]
Tulane University
Citation: For contributions to the understanding of magnetism and superconductivity in iron-based superconductors and correlated electron states in ruthenates.


Maple, M. Brian [1985]
University of California, San Diego
Citation: For his extensive contributions in research on magnetism, superconductivity, and their interactions.


Marchetti, M. Cristina [2000]
Syracuse University
Citation: For contributions to the theory of the dynamics of vortex matter and charge-density waves.


Marcus, Charles M. [2009]
Harvard University
Citation: For contributions to the fabrication of mesoscopic semiconductor devices and the study of their electronic properties.


Margaritondo, Giorgio [1988]
EPFL - Lausanne
Citation: For research using synchrotron radiation to study interface phenomena and for leadership in developing the scientific program at the Wisconsin Synchrotron Radiation Center.


Mark, Peter [1977]
Princeton University
Citation: Not available


Markert, John [2008]
University of Texas
Citation: For the synthesis and study of magnetic and superconducting materials, particularly electron-doped copper-oxide superconductors.


Markovic, Nina [2016]
Johns Hopkins University
Citation: For important contributions to the experimental study and understanding of electron transport in low dimensions.


Marston, John B. [2013]
Brown University
Citation: For contributions to the theory of quantum magnetism and to the statistics of fluid systems driven far away from equilibrium.


Martin, Ivar [2015]
Argonne National Laboratory
Citation: "For fundamental work in the theory of strongly correlated electrons, topological materials, and quantum measurement."


Martin, Richard McFadden [1985]
University of Illinois, Urbana-Champaign
Citation: For his contributions to theoretical physics in the understanding of the relationship between the electronic properties and the structure of condensed matter.


Martinez, Gérard Claude [1996]
CNRS
Citation: For contributions to our understanding of defects, superconductivity, and other many-body effects in semiconductors under conditions of high pressure and magnetic field.


Martinis, John M. [1997]
National Institute of Standards & Technology
Citation: For his experimental investigations into the fundamental quantum behavior of low-temperature electronic devices.


Martins, Jose Luis [2006]
Instituto Superior Tecnico, Portugal
Citation: For his contributions to the study of the electronic structure of solids and clusters and to the development of ab-initio methods, including new pseudopotentials.


Maslov, Dmitri [2009]
University of Florida
Citation: For contributions to the theory of quantum transport in one-dimensional systems.


Mason, Thomas G. [2008]
University of California, Los Angeles
Citation: For pioneering the approach of microrheology of complex fluids based on the thermal diffusion of probe colloids.


Mason, Thomas E. [2007]
Oak Ridge National Laboratory
Citation: For pioneering inelastic neutron scattering measurements on high temperature superconductors and Kondo insulators. Outstanding contributions to neutron instrumentation and leadership of the Oak Ridge Spallation Neutron Source project.


Masuda, Yoshika [1991]
Aichi Gakuin University
Citation: For contributions to experimental low temperature research in super-conductors, metals, and allows, and for his investigations of nuclear magnetism and bcc solid 3He.


Mattheiss, L F [1969]
Bell Telephone Laboratories
Citation: Not available


Mattoussi, Hedi M. [2013]
Florida State University
Citation: For development of concepts to interface inorganic nano-particles with biological systems, with impact on nanomaterials and biotechnology.


Matveev, Konstantin [2008]
Argonne National Laboratory
Citation: For fundamental contributions to the physics of mesoscopic systems, including the theory of Coulomb blockade, and of transport and tunneling in quantum dots and quantum wires.


Mayer, James W [1972]
California Institute of Technology
Citation: Not available


Maynard, Julian Decatur [1989]
Pennsylvania State University
Citation: For applications of acoustic techniques in superfluids and other problems in condensed matter physics.


Mazenko, Gene F. [1987]
University of Chicago
Citation: For establishing renormalization group methods in dynamical critical phenomena and growth kinetics problems, and for identifying the breakdown of hydrodynamical behavior in certain magnetic and liquid crystal systems.


Mazumdar, Sumitendra [2002]
University of Arizona
Citation: For pioneeing numerical work treating electronic correlations, ground state broken symmetries, photophysics and nonlinear spectroscopy.


McCombe, Bruce Douglas [1981]
Naval Research Laboratory
Citation: Not available


McEuen, Paul L [2003]
Cornell University
Citation: For important contributions to the fabrication, measurement, and understanding of nanometer scale electronic systems, including quantum dots, nanocrystals, carbon nanotubes, and single molecules.


McGill, Thomas Conley, Jr. [1981]
Caifornia Institute of Technology
Citation: Not available


McGurn, Arthur Robert [2005]
Western Michigan University
Citation: For pioneering work on the theory of phase coherent multiple scattering effects from rough surfaces and thin films, and for research in nanostructure photonics.


McKeever, Stephen [2007]
Oklahoma State University
Citation: For major contributions to solid-state radiation dosimetry using thermally and optically stimulated luminescence from wide band-gap insulators, including the development of novel luminescence techniques for radiation measurement.


McKelvey, John P [1968]
Affiliation not available
Citation: Not available


McMorrow, Desmond [2011]
London Center Nanotechnoloy
Citation: For experimental studies of strongly correlated electron systems using x-ray and neutron scattering.


McQueeney, Robert [2010]
Iowa State University
Citation: For the development and use of neutron scattering techniques to advance the understanding of strongly correlated electron systems.


McWhan, Denis B [1972]
Georgia Institute of Technology
Citation: Not available


Meakin, Paul [1989]
Affiliation not available
Citation: For application of computer experiments to diffusion-limited aggregation, for the introduction of alternative fractal aggregates, and for the understanding of related harmonic multifractal measures.


Meechan, Charles J [1975]
Rockwell International
Citation: Not available


Meijer, Paul H.E. [1983]
Catholic University of America
Citation: For contributions to the fields of irreversible thermodynamics (1), group theory (2), Ising series, low temperature physics (3), and for sustained teaching and lecturing of theoretical physics and encouraging people to pursue this type of career.


Meir, Yigal [2003]
Ben-Gurion University of the Negev
Citation: For contributions to our understanding of interacting and disordered electron systems, particularly in the context of mesoscopic physics.


Meisel, Mark W. [2009]
University of Florida
Citation: For contributions to magnetic and magneto-optical properties of low-dimensional and nanoscale materials.


Melcher, Robert L [1976]
IBM at Yorktown Heights
Citation: Not available


Mele, Eugene J [2001]
University of Pennsylvania
Citation: For his contributions to the theory of electronic phenomena in conducting polymers, fullerides and nanotubes.


Mendez, Emilio Eugenio [1988]
State University of New York, Stony Brook
Citation: For contributions in quantum well physics, notably the observation of Stark shifts, magneto-resonant tunneling and two-carrier quantum Hall effect.


Menon, Narayanan [2009]
University of Massachusetts
Citation: For experiments that helped shape the current understanding of granular fluids and supercooled liquids.


Menyuk, Norman [1972]
Massachusetts Institute of Technology
Citation: Not available


Merlin, Roberto Daniel [1996]
University of Michigan
Citation: For contributions to the understanding of vibrational and electronic properties of semiconducting and magnetic structures, and of artificial quasiperiodic structures.


Merz, James L. [1989]
Univ of Notre Dame
Citation: For research leading to the understanding of the optical properties of compound semiconductor materials and optoelectronic devices.


Merz, Walter J [1972]
RCA Switzerland
Citation: Not available


Messmer, Richard P [1982]
Affiliation not available
Citation: Not available


Metiu, Horia [1986]
Affiliation not available
Citation: For his insightful contributions to our understanding of surfaces and adsorbates using spectroscopic techniques to measure dynamic properties.


Meyer, Gerhard [2009]
IBM Zurich Research Laboratory
Citation: For developments and applications of low-temperature scanning tunneling microscopy.


Meyer, Robert B. [1985]
Brandeis University
Citation: For his substantial contribution to novel experiment and theoretical understanding in the area of liquid crystals.


Mezei, Ferenc [2000]
Los Alamos National Laboratory
Citation: For his leadership in developing new techniques for neutron scattering studies of condensed matter, including the invention of the neutron spin echo method.


Mieher, Robert L [1972]
Purdue University
Citation: Not available


Migone, Aldo Dante [2005]
Southern Illinois University
Citation: For his contributions to the experimental study of the thermodynamics of one- and two-dimensional films adsorbed on carbon nanotubes, graphite, and boron nitride.


Mihaly, Laszlo [2005]
State University of New York, Stony Brook
Citation: For important contributions in tunneling and optical studies of high temperature superconductors and fullerene materials, and for developing far infrared spectroscopic methods to detect electron spin resonance.


Miller, David Andrew Barclay [1988]
Stanford University
Citation: For contributions to the understanding and application of nonlinear optical and electroabsorptive effects in semiconductor structures.


Miller, Michael D [2005]
Washington State University
Citation: For insightful contributions to the theoretical description and the interpretation of experimental data of quantum fluid mixtures and mixture films.


Millis, Andrew J. [1999]
Rutgers University
Citation: For contributions to the theory of strongly-correlated electron systems.


Mills, Douglas L [1972]
University of California, Irvine
Citation: Not available


Millsaps, Knox [1969]
Affiliation not available
Citation: Also approved by the Division of Fluid Dynamics.


Mints, Roman G. [2013]
Tel Aviv University
Citation: For contributions to the theory of critical state in type-II superconductors, and prediction of non-quantized flux of Josephson vortices on grain boundaries in high-Tc cuprates.


Misra, Prabhakar [2015]
Howard University
Citation: For sustained contributions to the spectroscopy of the condensed phases and exemplary mentoring of underrepresented students.


Mitra, Shashanka S [1969]
Affiliation not available
Citation: Not available


Mitrovic, Vesna [2015]
Brown University
Citation: For pioneering contributions to NMR study of low energy excitations in emergent quantum phases.


Mochel, Jack M. [1980]
University of Illinois, Urbana-Champaign
Citation: Not provided


Molenkamp, Laurens W. [2009]
Univ. Wuerzburg
Citation: For contributions to the field of semiconductor spintronics.


Moler, Kathryn [2008]
Stanford University
Citation: For important developments in scanning SQUID microscopies, and for their pioneering applications to unconventional and mesoscopic superconductivity.


Moline, Robert A [1976]
Bell Telephone Laboratories
Citation: Not available


Moncton, David E [1982]
Affiliation not available
Citation: Not available


Mooij, Johan Elisa [1993]
Affiliation not available
Citation: For innovative contributions to the study of phase transitions and charge quantization effects in superconducting films and tunnel junction arrays.


Mooney, Patricia M. [1991]
Simon Fraser University
Citation: For fundamental experimental and conceptual contributions to the understanding of deep level defects in semiconductors.


Mooradian, Aram [1969]
Massachusetts Institute of Technology Lincoln Laboratory
Citation: Not available


Moore, Joel E. [2013]
University of California, Berkeley
Citation: For fundamental contributions to electronic structure theory of topological insulators.


Moreo, Adriana [2002]
Florida State University
Citation: For important contributions to computational techniques and their application to the manganites, d-wave superconductors and other correlated electronic systems.


Morkoc, Hadis [1988]
Virginia Commonwealth Univ
Citation: For numerous innovative contributions in molecular beam epitaxial growth of semiconductor structures.


Morr, Dirk Klaus [2012]
University of Illinois, Chicago
Citation: For contributions to the theory of strongly correlated electron materials and complex phenomena at the nanoscale


Moshchalkov, Victor [2007]
Institute for Nanoscale Physics & Chemistry
Citation: For important contributions to the study of vortex matter and nano-structured superconductors.


Moss, Simon C [1975]
University of Houston
Citation: Not available


Mota, Ana Celia [1994]
Affiliation not available
Citation: For work on superfluidity and superconductivity at ultra-low temperatures.


Movshovich, Roman [2005]
Los Alamos National Laboratory
Citation: For contributions to the understanding of unconventional superconductivity and strongly correlated electron phenomena at very low temperatures.


Mudry, Christopher [2010]
Paul Scherrer Institute
Citation: For contributions to the theory of spin-charge separation in  strongly correlated systems and to disorder-induced quantun criticality in metals and topological insulators.


Mueller, Frederick M [1977]
University of Nijmegen
Citation: Not available


Mukamel, David [1987]
Weizmann Institute of Science
Citation: For contributions to the theory of phase transitions and critical points, and to the understanding of the role played by symmetry in these phenomena.


Muller, Karl A. [1980]

Citation: Not Provided


Murray, Cherry Ann [1987]
Harvard University
Citation: For her studies of the surface-enhanced Raman effect and of two-dimensional melting.


Murthy, Ganpathy N. [2009]
University of Kentucky
Citation: For contributions to the understanding of correlated and disordered electron systems.


Muttalib, Khandker Abdul [2005]
University of Florida
Citation: For pioneering the transfer matrix approach to study mesoscopic fluctuations in electronic transport in disordered systems.


Mydosh, John Anthony [1991]
Kamerlingh Onnes Lab
Citation: For studies of the magnetic and superconducting properties of new materials, especially the spin glasses.


Nagel, Sidney R. [1988]
University of Chicago
Citation: For contributions to our understanding of the properties of metallic glasses and relaxation phenomena near the liquid-glass transition.


Nagle, John F. [1980]
Carnegie Mellon University
Citation: Not Provided


Nagler, Stephen Eric [2000]
Oak Ridge National Laboratory
Citation: For neutron scattering studies of excitations in low dimensional quantum magnets.


Nahory, Robert E. [1986]
Rutgers University
Citation: For many important contributions to the fundamental understanding of practical use of optoelectronic phenomena in semiconductors.


Nakayama, Tsuneyoshi [1995]
Hokkaido University
Citation: For contributions to our understanding of the dynamics of fractal structures by large-scale computer simulations and of the Kapitza resistance at millikelvin temperatures.


Nam, Sang Boo [1977]
Wright Patterson Air Force Base
Citation: Not available


Narayan, Jagdish [1982]
Affiliation not available
Citation: Not available


Narayanamurti, Venkatesh [1981]
Bell Laboratories
Citation: Not available


Natelson, Douglas [2012]
Rice University
Citation: For experiments in atomic- and molecular-scale junctions


Nattermann, Thomas [2009]
Univ. zu Koln
Citation: For contributions to statistical physics of disordered systems, especially the dynamics of elastic disordered media.


Naughton, Michael J [2003]
Boston College
Citation: For his contributions to the understanding of low dimensional electron physics through creative experimental studies of molecular organic conductors and superconductors in oriented high magnetic fields.


Nayak, Chetan [2011]
University of California, Santa Barbara
Citation: For the study of non-Abelian anyons in condensed matter systems and their applications to topological quantum computing.


Nellis, William Joel [1987]
Harvard University
Citation: For the systematic experimental investigation of the equation-of-state, electrical transport, and spectroscopic properties of dense fluids at high dynamic pressures and temperatures.


Nelson, David R. [1987]
Cornell University
Citation: For contributions to statistical mechanics and the theory of partially ordered systems, including critical phenomena in two and three dimensions, the dynamics of fluid mixtures, icosahedral order in rapidly quenched metallic alloys.


Neumark, Gertrude F [1982]
Affiliation not available
Citation: Not available


Neumeier, John J. [2013]
Montana State University
Citation: For experiments on strongly correlated electron materials, and the development of ultrahigh-resolution thermal expansion measurements to study phase transitions in quantum materials.


Newns, Dennis M. [1987]
IBM T.J. Watson Research Center
Citation: For his contributions to the understanding of chemisorption, ion-surface scattering and rare-earth intermediate valence systems.


Newrock, Richard Sandor [1996]
University of Cincinnati
Citation: For application of large Josephson junction arrays to the study of two-dimensional phase transitions.


Nicklow, Robert Merle [1976]
Oak Ridge National Laboratory
Citation: Not available


Nieminen, Risto Matti [1995]
Helsinki University of Technology
Citation: For developing and applying theoretical and computational techniques in several areas of condensed matter and materials physics.


Nightingale, M. Peter [1988]
Affiliation not available
Citation: For formulating the phenomenological renormalization group finite-size scaling method and other contributions to our understanding of cooperative phenomena in low dimensional systems.


Niu, Qian [1999]
University of Texas, Austin
Citation: For contributions to the theories of quantum transport.


Noggle, Thomas Sherman [1981]
Oak Ridge National Laboratory
Citation: Not available


Nori, Franco [2002]
University of Michigan
Citation: For innovative theoretical contributions to the study of vortex dynamics in superconductors, dynamical instabilities, Josephson junction arrays and quantum interference.


Norman, Michael Ray [1995]
Argonne National Laboratory
Citation: For studies of correlated electrons and their magnetic and superconducting properties by modeling of real materials using ab-initio calculations.


Norris, David J. [2006]
University of Minnesota
Citation: For fundamental contributions and pioneering investigations in the areas of growth of doped nanocrystals and growth of photonic crystals based on self-assembly.


Northrup, John E. [1996]
Xerox PARC
Citation: For insights into the structure and electronic properties of semiconductor surfaces, adsorbates, interfaces and defects through the application of first principles calculations.


Nosanow, Lewis H [1969]
University of Minnesota
Citation: Not available


Nurmikko, Arto Veikko [1990]
Affiliation not available
Citation: For optical, magneto-optical, and short-pulse, studies of II-VI semiconductors, diluted magnetic semiconductors, and related heterostructures.


Ocko, Benjamin Mark [1999]
Brookhaven National Laboratory
Citation: For studies of the structure and phase behavior of liquid interfaces.


Ohr, Sekyu Michael [1986]
Affiliation not available
Citation: For experimental and theoretical investigation of defects in metal crystals, and for seminal studies of the fracture of solids.


Oitmaa, Jan [2001]
University of New South Wales
Citation: For numerical and analystic theoretical studies of quantum spin and correlated fermion models.


Okamoto, Satoshi [2016]
Oak Ridge National Laboratory
Citation: For contributions to the theory of interacting electrons in solids, including foundational work on orbital waves and on correlated-electron superlattices.


Olson, Clifford Gerald [1993]
Affiliation not available
Citation: For high resolution angle-resolved photoemission measurements on high-temperature superconductors.


Ong, Nai-Phuan [1989]
Princeton Univ
Citation: For research on transport properties of low-dimensional systems, especially the phenomena of sliding charge-density waves.


Orbach, Raymond L [1971]
University of California Los Angeles
Citation: Not available


Orenstein, Joseph W. [1993]
University of California, Berkeley
Citation: For contributions to the spectroscopy of elementary excitations in novel materials.


Orera, Victor Manuel [1993]
Univ de Zaragoza
Citation: For his contributions to the understanding of point defects in insulation crystals by using a variety of techniques comprising mainly optical and magnetic resonance spectroscopy.


Osborn, Raymond [2005]
Argonne National Laboratory
Citation: For contributions to the understanding of strongly correlated electron systems using neutron and synchrotron X-ray scattering.


Osbourn, Gordon Cecil [1986]
Sandia National Laboratories
Citation: For his work in stimulating the field of strained-layer superlattices and for his theoretical studies of their electrical and optical properties.


Osheroff, Douglas Dean [1981]
Bell Laboratories
Citation: Not available


Osterwalder, Jurg [2007]
University of Zurich
Citation: For development of photoemission techniques for surface and solid-state studies, including advances in angle-resolved photoemission for Fermi surface mapping and photoelectron diffraction for determining surface structure.


Ott, Hans-Rudolf [1989]
ETH Zurich
Citation: For contributions to the understanding of heavy fermion systems.


Ovshinsky, Stanfird Robert [1984]
No company provided
Citation: For his contributions to the understanding, applications and development of amorphous electronic materials and devices.


Paalanen, Mikko Antero [1987]
Affiliation not available
Citation: For his pioneering low-temperature studies of conduction electrons in two- and three-dimensional disordered systems.


Packard, Richard E. [1994]
University of California, Berkeley
Citation: For work in demonstrating the macroscopic quantum nature of various superfluid systems, and improving our understanding of the fundamental behavior of systems of quantized vortices.


Paesler, Michael Arthur [1997]
North Carolina State University
Citation: For contributions to the physics of amorphous materials, and to the development of spectroscopic near field optical microscopy.


Page, John Boyd [1990]
Arizona State University
Citation: For contributions to the theory of resonance light scattering and absorption, electron-vibrational coupling, and the vibrational properties of solid-state defects and complex molecular systems.


Page, John H. [2014]
University of Manitoba
Citation: For contributions to wave propagation in mesoscopic materials, particularly in phononic crystals, Anderson localization of sound waves, and ultrasonic spectroscopy of strongly scattering media.


Pai, Damodar Mangalore [1984]
No company provided
Citation: For his experimental work on fundamental photophysical processes in amorphous semiconductors and his work on the development of novwl organic photoconductors for large area applications.


Palffy-Muhoray, Peter [2008]
Kent State University
Citation: In recognition of his creative explorations and contributions to the understanding of light-matter interactions in liquid crystalline systems.


Pandey, Kosal Chandra [1986]
Affiliation not available
Citation: For contributions to the physics of semiconductor surface reconstruction, especially the introduction of π-bonding as a reconstruction mechanism and for the π -bonded chain model of the Si(111)-2X1 surface.


Pantelides, Sokrates T. [1980]
Vanderbilt University
Citation: Not Provided


Papconstantopoulos, Dimitrios A. [1980]

Citation: Not Provided


Pappas, David [2014]
National Institute of Standards and Technology
Citation: For studies of ultra-thin magnetic films and surfaces, including contributions to magnetic sensors and quantum devices.


Park, Yoon S [1976]
Aerospace Research Laboratory
Citation: Not available


Park, Yung Woo [2009]
Seoul National University
Citation: For contributions to the synthesis and transport in conducting polymers, carbon nanotubes, organic crystals, and highly-correlated materials.


Parkin, Stuart S.P. [1992]
IBM Almaden Research Center
Citation: For contributions to organic and high-temperature superconductivity and magnetism in transition-metal multilayers.


Parpia, Jeevak Mahmud [2004]
Cornell University
Citation: For the discovery and exploration of superfluidity in disordered 3He.


Parrinello, Michele [1991]
ETH Zurich
Citation: For the development of novel and powerful methods for the simulation of molecular and fermionic systems.


Paskin, Arthur [1969]
Affiliation not available
Citation: Not available


Patashinski, Alexander Z. [2003]
Northwestern University
Citation: For pioneering contributions to the development of the contemporary theory of critical phenomena, particularly for the discovery of scale invariance.


Patel, Jamshed Ruttonshaw [1987]
Affiliation not available
Citation: For contributions to the methodology of X-ray characterization of crystalline solids and to the fundamental understanding of dislocations in semiconductors and oxygen precipitation and stacking faults in silicon.


Patton, Carl Elliott [1984]
Colorado State University
Citation: For Contributions to the understanding of dynamic magnetization processes in ferro and ferrimagnetic materials.


Peercy, Paul Suart [1985]
University of Wisconsin, Madison
Citation: For fundamental studies in solid state physics, particularly structural phase transitions and light scattering, ion implantation, ion beam analysis and laser annealing solids.


Peeters, Francois M. [2005]
University of Antwerp
Citation: For his sustained, important contributions to theoretical solid state physics, in particular to the areas of mesoscopic superconductivity and nanostructured semiconductors.


Penn, David Robert [1991]
Affiliation not available
Citation: For creative theoretical solutions of experimental puzzles in electron and optical spectroscopy and his work on models of semiconductors and on magnetic phase diagram.


Penney, Thomas [1985]
IBM T.J. Watson Research Center
Citation: For fundamental studies in rare earth materials clarifying the configurational (valence) transition, the effect of phonons and local enviromental on valence instabilities, and the role of the magnetic polaron in the metal insulator transition.


Pennycook, Stephen John [1991]
Oak Ridge National Laboratory
Citation: For the development of high-resolution Z-contrast transmission electron microscopy.


Penz, Perry A. [1980]

Citation: Not Provided


Pepper, Michael [1991]
University of Cambridge
Citation: For experimental studies of localization and of the properties of confined electron systems.


Perdew, John Paul [1991]
Tulane University
Citation: For the discovery of exact fundamental relationships and the construction of useful approximations in the density functional theory of atoms, molecules, and solids.


Perkins, Natalia [2016]
University of Minnesota
Citation: For theoretical studies of the low-energy behavior of strongly correlated electron systems that exhibit an interplay of orbital and spin degrees of freedom.


Perry, Clive H. [1993]
Affiliation not available
Citation: For sustained contributions to the fields of far-infrared, Raman and inelastic neutron scattering spectroscopy of ferroelectrics, magnetic materials, and semiconductors.


Pershan, P S [1969]
Harvard University
Citation: Not available


Peterson, Norman L [1975]
Argonne National Laboratory
Citation: Not available


Pethick, Christopher J [1985]
NORDITA
Citation: For his extensive contributions to the theory of condensed matter systems, ranging from low temperature helium and superconductors to condensed astrophysical objects and nuclear matter.


Petroff, Pierre M. [1989]
Affiliation not available
Citation: For developing novel spectroscopic methods to characterize the structure and electronic properties of defects, interfaces, and superlattices of semiconductors.


Petrou, Athos [1997]
State University of New York, Buffalo
Citation: For optical studies of heterostructures and elucidating their band structure and optical properties.


Petrovic, Cedomir [2015]
Brookhaven National Laboratory
Citation: For outstanding contributions to understanding of heavy fermion materials through synthesis and characterization of new systems, particularly CeCoIn5.


Pfeifer, Peter M. [1999]
University of Missouri
Citation: For studies of strongly-disordered surfaces and for fundamental work in molecular superselection rules.


Pfeiffer, Loren N. [1994]
Affiliation not available
Citation: For contributions to the growth of ultra-high mobility semiconductor materials, the innovative use of molecular beam epitaxy, and the physics of low-dimensional electronic systems.


Phillips, Norman E [1977]
University of California, Berkeley
Citation: Not available


Phillips, Philip W. [2002]
University of Illinois, Urbana-Champaign
Citation: For creative theoretical contributions to the studies of strongly correlated electronic systems, including the random dimer model and superconductor-insulator transitions.


Phillips, Richard [2007]
University of Cambridge
Citation: For contributions to the understanding of coherent quantum optical processes in semiconductors.


Phillips, Thomas G [1975]
Bell Laboratories
Citation: Not available


Pianetta, Piero Antonio [2006]
SLAC National Accelerator Laboratory
Citation: For his pioneering contributions to the synchrotron based photoelectron spectroscopy study of electronic structure of surfaces and interfaces.


Pickart, Stanley J [1968]
Affiliation not available
Citation: Not available


Pickett, Warren Earl [1989]
University of California, Davis
Citation: For developments in the theoretical understanding of electronic and magnetic properties of crystalline solids, both metals and insulators.


Pierce, Daniel T. [1989]
National Institute of Standards and Technology
Citation: For studies of electron-spin-polarization phenomena at surfaces and for the development of electron-polarization sources.


Pietronero, Luciano [1990]
University of Roma
Citation: For contributions to the theory of fractals, including the dielectric-breakdown model and his extensions of the theory of diffusion-limited aggregation and applications of fractal methods to astronomy.


Pinczuk, Aron [1987]
Columbia University
Citation: For his pioneering work on the application of light-scattering to study the properties of two-dimensional electron systems.


Pindak, Ronald S. [1985]
Brookhaven National Laboratory
Citation: In recognition of his experimental contributions to the study of long-range order in two- and three- dimensional liquid crystalline systems.


Pine, David J. [1997]
University of California, Santa Barbara
Citation: For the development of light scattering techniques, including diffusing-wave spectroscopy, and their application to the study of complex fluids.


Plummer, E. Ward [1985]
Louisiana State University
Citation: For contributions to the fields of field emission spectroscopy (FES), photoelectron spectroscopy (PES) (including UV, x-ray and especially angle-resolved photoelectron spectroscopy), and electron energy loss spectroscopy (EELS).


Poate, John Milo [1983]
Colorado School of Mines
Citation: For his pioneering work in application of nuclear physics and ion beam techniques to solid state and materials science.


Pokrovsky, Valery [1999]
Texas A&M University
Citation: For contributions to the scaling theory of phase transitions and the commensurate-incommensurate phase transition.


Pollak, Fred Hugo [1991]
CUNY - Brooklyn College
Citation: For pioneering work in the use of optical methods, particularly modulation and Raman spectroscopies and uniaxial stress to elucidate the electronic and vibrational properties of semiconductors and semiconductor microstructures.


Pomerantz, Melvin [1983]
Lawrence Berkeley National Laboratory
Citation: For the creation and study of literally two-dimensional magnets. For the discovery of heat pulse and microwave phonon interactions in Si and Ge, and phonon excitation of spin-waves.


Poon, Joseph S. [1994]
Affiliation not available
Citation: For studies of amorphous metallic solids and discoveries of new classes of metallic and insulating quasicrystals.


Popovic, Dragana [2012]
Florida State University
Citation: For experimental studies of glassy behavior in strongly correlated systems near the metal-insulator transition


Potemski, Marek [2016]
CNRS
Citation: For contributions to the understanding of semiconductor and graphene-based, two dimensional systems using optical magneto-spectroscopy methods.


Praddaude, Hernan C [1977]
Massachusetts Institute of Technology
Citation: Not available


Pratt, William P., Jr. [1992]
Michigan State University
Citation: For his development of high-precision ultra-low-temperature electron-transport experiments on metals, semimetals, and metallic multilayers.


Price, David Long [1990]
Oak Ridge National Laboratory
Citation: For leadership in and contributions to the development of neutron instrumentation and techniques and studies of the structure and dynamics of liquids and glasses.


Prigodin, Vladimir [2007]
Ohio State University
Citation: For his pioneering studies of electronic properties of low-dimensional systems, proposal and development of fundamentals of charge transport in quasi-one-dimensional disordered structures, and also of operating principals of new organic-based electronic materials/devices and fully spin polarized organic spintronic materials/devices.


Prinz, Gary Arthur [1984]
No company provided
Citation: For spectroscopic studies which clarified the roles of magnetic ions in insulators and the introduction of molecular beam epitaxy as a technique for the growth of magnetic materials.


Prober, Daniel Ethan [1989]
Yale University
Citation: For contributions to the production and understanding of mesoscopic electronic structures.


Prokof'ev, Nikolai V. [2006]
University of Massachusetts
Citation: For pioneering contributions to theories of dissipative quantum dynamics and for innovative Monte Carlo approaches to quantum  and classical studies of critical phenomena.


Prozorov, Ruslan [2011]
Iowa State University
Citation: For high-resolution measurements of the London penetration depth of superconductors.


Pynn, Roger [1997]
Los Alamos National Laboratory
Citation: For a leadership role in neutron scattering and for developing new techniques for neutron scattering studies.


Pytte, Erling [1975]
IBM
Citation: Not available


Quate, Calvin F. [1989]
Stanford Univ - Ginzton Lab
Citation: For contributions to the field of linear and nonlinear acoustics and to low-temperature tunneling microscopy and atomic force microscopy.


Queisser, Hans Joachim [1992]
Affiliation not available
Citation: For contributions to the physics of defects in semiconductors and for participating in and reporting on the evolution of semiconductor physics and technology.


Radzihovsky, Leo [2003]
University of Colorado, Boulder
Citation: For seminal theoretical work on liquid crystals, colloids, vortices in superconductors, and the quantum Hall effect.


Rahman, Talat Shahnaz [1998]
Kansas State University
Citation: For theoretical studies of surface dynamics.


Raikh, Mikhail E. [2006]
University of Utah
Citation: For pioneering contributions to the theory of tunneling through localized states, magnetotransport in two-dimensional electron systems, and light propagation in disordered crystals.


Rainer, Dierk [2000]
University of Beyreuth
Citation: For contributions to the theory of strong-coupling effects in superconductors and in superfluid 3He.


Ralph, Daniel Charles [2005]
Cornell University
Citation: For innovative experimental investigations of the electronic and magnetic properties of nanometer-scale structures.


Ramakrishnan, T.V. [1987]
Indian Institute of Science
Citation: For his contributions tot he many-body theory of disordered systems, especially the scaling theory of localization and the theory of mixed-valent impurities.


Ramdas, Anant K [1969]
Affiliation not available
Citation: Not available


Ramirez, Arthur Penn [1997]
Bell Laboratories
Citation: For magnetic, thermal, and transport studies of correlated magnetism and superconductivity in low-dimensional and geometrically-frustrated magnets, heavy-fermion metals, fullerenes and colossal-magnetoresistance materials.


Randeria, Mohit [2007]
Ohio State University
Citation: For seminal theoretical contributions to strongly-correlated superconductors, to the analysis of angle-resolved photoemission spectroscopy, and to the BCS-BEC crossover.


Rashba, Emmanuel Iosif [1993]
Harvard University
Citation: For contributions to solid state theory: in particular the giant oscillator strength 'Tashba Effect' of bound excitons, the co-existence of free and self-trapped excitons, and the 'de-exciton' in magnetoplasmas.


Read, Nicholas [1996]
Yale University
Citation: For contributions to the quantum many-body theory of strongly interacting electron systems, particularly to the theory of the Quantum Hall Effect.


Reed, Mark Arthur [2002]
Yale University
Citation: For pioneering contributions to the investigation of electronic transport in quantum confined heterojunction devices, nanostructures and molecular scale systems.


Reed, William A [1968]
Affiliation not available
Citation: Not available


Rehr, John J [2001]
University of Washington
Citation: For developments which led to a quantitative theory and analysis of extended x-ray absorption fine structure.


Reichhardt, Cynthia [2011]
Los Alamos National Laboratory
Citation: For characterization of collective phenomena in driven systems with long-range interactions, including non-equilibrium phase diagrams, avalanches, noise and fractal flow.


Reinecke, Thomas L [1982]
Affiliation not available
Citation: Not available


Reitz, John R [1971]
Ford Motor Company
Citation: Not available


Rezayi, Edward [2007]
California State University
Citation: For fundamental theoretical contributions to the field of the fractional quantum Hall effect.


Rhyne, James J [1975]
National Bureau of Standards
Citation: Not available


Rice, Thomas M [1973]
Not available
Citation: Not available


Richards, Peter M [1977]
Sandia National Laboratories
Citation: Not available


Richardson, Robert Colemane [1981]
Cornell University
Citation: Not available


Riedel, Eberhard K. [1983]
University of Washington
Citation: In recognition of his leadership role in advancing our knowledge of phase transitions.


Riedo, Elisa [2013]
Georgia Institute of Technology
Citation: For atomic force microscopy studies of nanoscale friction, liquid structure and nanotube elasticity, and the invention of thermochemical nanolithography.


Rinzler, Andrew G. [2014]
University of Florida
Citation: For contributions to the understanding of carbon nanotubes and the development of their application.


Ripper, Jr, Jose Ellis [1983]
No Company Provided
Citation: For contributions to the field of semiconductor lasers and optical communications.


Riseborough, Peter S. [2012]
Temple University
Citation: For contributions to quantum statistical mechanics of non-linear and non-equilibrium phenomena and correlated electron systems


Robinson, Robert Alan [1998]
Los Alamos National Laboratory
Citation: For elastic and inelastic neutron scattering studies of magnetic structures.


Rodriguez, Sergio [1969]
Not available
Citation: Not available


Rogge, Sven [2016]
University of New South Wales
Citation: For contributions to the understanding and development of solid-state quantum electronics and transport through single dopants in semiconductors.


Rokhinson, Leonid [2016]
Purdue University
Citation: For contributions to the field of mesoscopic semiconductors.


Ronning, Filip [2015]
Los Alamos National Laboratory
Citation: For experimental contributions to understanding strongly correlated electron phenomena, particularly in cuprate and heavy-fermion systems.


Rosenbaum, Thomas Felix [1994]
California Institute of Technology
Citation: For contributions to the study of disordered systems and correlation phenomena at low temperatures.


Rosencwaig, Allan [1983]
Therma-Wave Inc
Citation: For pioneering work in the development of photoacoustics for solid-state spectroscopy and in the development of thermal-wave physics.


Rosengren, Anders [2006]
KTH-Royal Institute of Technology, Sweden
Citation: For sustained theoretical work that correctly predicted superconductivity in americium, effects of impurities in high-temperature superconductors, new phases in rare-earth metals, and the critical point for the 3d Ising model.


Rosenkranz, Stephan [2013]
Argonne National Laboratory
Citation: For contributions to the understanding of strongly correlated electron systems using neutron and x-ray scattering.


Rosi, Fred D [1977]
Reynolds Metal Company
Citation: Not available


Rotenberg, Eli [2008]
Lawrence Berkeley National Laboratory
Citation: For outstanding contributions to the understanding of quantum electronic properties of nanophase and reduced dimensionality systems by creative applications of angle-resolved photoemission spectroscopy.


Roukes, Michael Lee [1999]
California Institute of Technology
Citation: For studies at low temperature of electronic, mechanical, and thermal phenomena on the nanometer scale.


Rowe, Jack Edward [1984]
No company provided
Citation: For his contributions to surface spectroscopy, especially for studies of intrinsic surface states and absorbed gases using photoemission with synchrotron radiation and Raman scattering.


Rowe, John M. [1992]
National Institute of Standards and Technology
Citation: For his contributions to the study of liquids, plastic crystals, and metal hydrides, and for his role in the development of neutron scattering instrumentation.


Rowland, Theodore [1980]
University of Illinois, Urbana-Champaign
Citation: Not Provided


Rubloff, Gary Wayne [1986]
Affiliation not available
Citation: For pioneering applications of surface electron spectroscopies and optical techniques to understand chemical reactions and properties of interfaces and surfaces, particularly silicon interfaces.


Ruckenstein, Andrei [2010]
Boston University
Citation: For advances in the theory of Bose condensation and collective effects in atomic gases, the Hubbard and non-Fermi liquid impurity models, and high-temperature superconductivity.


Rudolf, Petra [2010]
Zernike Institute for Advanced Materials
Citation: For explorations of fullerenes, nanotubes, graphite, and graphene, as well as light-driven synthetic molecular motors.


Rugar, Daniel [2006]
IBM Research Division
Citation: For his development of ultrasensitive force detection techniques and their application to atomic, magnetic and magnetic resonance force microscopies, including single electron spin detection.


Rush, John Joseph [1994]
National Institute of Standards; Technology
Citation: For contributions to the understanding of the structure and dynamics of hydrogen in metals.


Saam, William Frederick [1997]
Ohio State University
Citation: For theoretical predictions of interfacial structures and wetting transitions in classical and quantum systems.


Sachdev, Subir [2001]
Yale University
Citation: For his contributions to the theory of quantum phase transitions and its application to correlated electron materials.


Sachrajda, Andrew S. [2014]
National Research Council
Citation: For contributions to the field of quantum transport in semiconductor quantum dots.


Sack, Henri S [1969]
Cornell University
Citation: Also approved by the Division of Polymer Physics.


Safinya, Cyrus R. [1994]
University of California, Santa Barbara
Citation: For x-ray scattering experiments probing the fundamental nature of the structure and interactions in fluid and ordered membranes.


Safran, Samuel A. [1989]
Weizmann Institute of Science
Citation: For the application of statistical physics to the understanding of complex materials such as intercalation compounds and microemulsions.


Sah, Chih-Tang [1972]
University of Illinois
Citation: Not available


Sakaki, Hiroyuki [2000]
University of Tokyo
Citation: For invention, fabrication, and analysis of important low-dimensional semiconductor materials and devices.


Salamon, Myron B [1976]
University of Illinois
Citation: Also approved by the Forum on Physics and Society.


Saldin, Dilano [2011]
University of Wisconsin, Milwaukee
Citation: For advancement of the theory of electron and X-ray diffraction and microscopy.


Salmeron, Miquel Batalle [1996]
Lawrence Berkeley National Laboratory
Citation: For contributions to the development of scanning probe methods and theoretical models for surface science, and for novel dynamics of surface processes.


Samara, George A [1976]
Sandia National Laboratories
Citation: Not available


Sander, Leonard Michael [1985]
University of Michigan, Ann Arbor
Citation: For his many contributions to density functional theory, particularly as applied to the electron-hole liquid, and for introducing the model for diffusion limited aggregation.


Santos, Michael B. [2012]
University of Oklahoma
Citation: For growth of compound semiconductor nanostructures and spin transport


Sarachik, Myriam P [1972]
City College of New York
Citation: Not available


Sarma, Sankar Das [1992]
Affiliation not available
Citation: For his theories of interacting excitations in semiconductors.


Saslow, Wayne Mark [2005]
Texas A&M University
Citation: For insightful contributions to the theory of superfluidity in 3He-A and in solids and for seminal work on spin glasses and random magnetism.


Sass, Stephen L. [1988]
Affiliation not available
Citation: For the use of x-ray diffraction to advance our understanding of structure of crystalline grain boundaries.


Satpathy, Sashi Sekhar [2000]
University of Missouri
Citation: For contributions to the understanding of complex materials using first-principles electron structure calculations.


Sauls, James Avery [1998]
Northwestern University
Citation: For contributions to theories of unconventional superfluidity and superconductivity.


Sawatzky, George Albert [2003]
University of British Columbia
Citation: For his experimental and theoretical contributions to the development of various high energy spectroscopic methods for studying the electronic structure of strongly correlated electron systems.


Sayers, Dale Edward [1991]
Affiliation not available
Citation: For his pioneering role in the development, application, and leadership in the propagation of EXAFS spectroscopy to physical and biological sciences.


Schaeffer, Dale W. [1988]
Affiliation not available
Citation: For experiments on the structures and dynamics of complex fluids and for studies of fractal structures in varied condensed matter systems.


Schaich, William Lee [1994]
Indiana University, Bloomington
Citation: For contributions to the theory of photoemission, chemisorption, behavior of electromagnetic fields near boundaries, and coupling of electromagnetic probes to two-dimensional electron gases.


Schick, Michael [1984]
University of Washington
Citation: For important contribution to the theory of surface films, their phases and phase transitions, which have a significant part in the current understanding of adsorbed monolayers and mulitlayers.


Schilling, James Stanford [2000]
Washington University
Citation: For contributions to condensed matter physics through the use of high pressure studies of magnetism and superconductivity.


Schlesinger, Zach [1992]
University of California, Santa Cruz
Citation: For his experimental contributions to our understanding of fundamental electron systems and high-temperature superconductors.


Schlueter, John A. [2014]
Argonne National Laboratory
Citation: For synthesis of new organic conductors, superconductors and magnets, and exploration of their emergent physical behavior.


Schmalian, Jorg [2006]
Iowa State University
Citation: For his pioneering contributions to the theory of strongly correlated materials, including studies on the role of disorder, frustration, and unconventional pairing in quantum many body systems.


Schmidt, Hugo V. [1980]
Montana State University
Citation: Not Provided


Schnatterly, Stephen E. [1985]
University of Virginia
Citation: For his contributions in developing and applying optical techniques to improving our fundamental understanding of various excitations in solids.


Schneemeyer, Lynn Frances [1993]
Rutgers University
Citation: For critical contributions to the understanding of collective phenomena in sliding charge density wave compounds and of high temperature super-conductivity by the growth and characterization of single crystals.


Schoelkopf, Robert J. [2005]
Yale University
Citation: For his innovative use of microwave techniques, including invention of the radio frequency single electron transistor and development of the first realization of strong coupling cavity QED in electrical circuits.


Schonenberger, Christian [2012]
University of Basel
Citation: For charge transport experiments in metallic, semiconducting and molecular nanoelectronics


Schriempf, John T. [1980]
Pennsylvania State University
Citation: Not Provided


Schroeder, Peter A [1984]
Michigan State University
Citation: Fr his continuing efforts in elucidating electronic structure and electron interactions in metals through the study of transport phenomena.


Schultz, Sheldon [1969]
University of California, San Diego
Citation: Not available


Schwartz, Brian B [1974]
Massachusetts Institute of Technology
Citation: Also approved by the Forum on the History of Physics, the Forum on Physics and Society, the Forum on Education, the Forum on Industrial and Applie, and the Forum Outreach & Engaging Public.


Schwartz, Daniel K. [2011]
University of Colorado, Boulder
Citation: For research into the behavior of molecules at interfaces.


Scott, Bruce Albert [1986]
Affiliation not available
Citation: For significant contributions to the synthesis of many novel inorganic and organic materials, and the elucidation of their growth mechanisms, electronic structures and solid state properties.


Sears, Varley Fullerton [1990]
Affiliation not available
Citation: For contributions to the theory and practice of thermal-neutron scattering in condensed-matter research and in fields of neutron optics and fundamental neutron interactions.


Seehra, Mohindar Singh [1984]
West Virginia University
Citation: For experimental contributions to improved understanding of magnetic and dielectric materials.


Seidman, David Nathaniel [1983]
Northwestern University
Citation: For the application of the field-ion and atom-probe microscopes to the quantitative study of the fundamental properties of point defects and point defect clusters in irradiated or quenched metals.


Seiler, David George [1991]
National Institute of Standards and Technology
Citation: For pioneering contributions involving two-photon absorption spectroscopy in high magnetic fields and for quantum transport measurements to elucidate novel band structure features of many semiconductors.


Selinger, Jonathan V. [2014]
Kent State University
Citation: For contributions to the theory of liquid crystals and the role of chirality in soft matter phases, making connections between fundamental statistical mechanics and technological applications.


Sellmyer, David J [1977]
University of Nebraska
Citation: Not available


Sen, Pabitra N. [1986]
University of North Carolina, Chapel Hill
Citation: For contributions tot he understanding of electronmagnetic, vibrational, structural, and transport properties of amorphous and composite media.


Serene, Joseph W. [1998]
Georgetown University
Citation: For contributions to theories of the normal and superfluid states of quantum liquids and strongly correlated electronic materials.


Shah, Jagdeep [1988]
Defense Advanced Research Projects Agency
Citation: For studies of hot carrier relaxation in semiconductors using optical spectroscopy.


Sham, Lu Jeu [1977]
University of California, San Diego
Citation: Not available


Shanabrook, Benjamin Victor [1998]
Naval Research Laboratory
Citation: For experimental studies of semiconductor quantum wells and superlattices.


Shaner, John Wesley [1986]
Los Alamos National Laboratory
Citation: For experimental research on material properties at extremely high dynamic temperatures and pressures, and for work in establishing an accurate pressure scale for static high pressure research above one megabar.


Shankar, Ramamurti [2001]
Yale University
Citation: For his contributions to statistical physics and quantum many-body theory, including notable works on random magnetism, fermionic renormalization group theory and the Quantum Hall system; and for his outstanding contributions to physics pedagogy.


Shapiro, Boris [2014]
Technion, Israel Institute of Technology
Citation: For contributions to the theory of electron transport in disordered metals and light propagation in disordered media.


Shapiro, Stephen M. [1986]
Brookhaven National Laboratory
Citation: For outstanding contributions in the field of neutron scattering studies of condensed matter physics, in particular the fundamental properties of re entrant spin glasses, mixed valent compounds and hydrogen in metals.


Sharma, Ram R [1982]
Affiliation not available
Citation: Not available


Shastry, Balajapalli S. [2006]
University of California, Santa Cruz
Citation: For his seminal contributions to the theory of strongly correlated and quantum-spin systems.


Shaw, Earl David [1989]
No Company Provided
Citation: For contributions to the development of infrared lasers, specifically the spin-flip Raman laser, and for his leadership in the education and advising of minority students and scientists.


Shayegan, Mansour [1999]
Princeton University
Citation: For the growth of novel advanced semiconductor materials and experimental studies of their properties.


Shelton, Robert N. [1995]
University of California, Davis
Citation: For his contributions to low temperature, high pressure studies of superconducting and magnetic materials.


Shen, Qun [2005]
Cornell University
Citation: For important contributions to x-ray physics, particularly in the field of multi-beam x-ray diffraction in relationship to the phase problem in proteins.


Shen, Yuen Ron [1972]
University of California, Berkeley
Citation: Not available


Shen, Zhi-Xun [2003]
Stanford University
Citation: For pioneering work in advancing the fundamental understanding of the electronic properties of highly correlated systems, in particular high-temperature superconductors.


Sheng, Donna [2013]
California State University
Citation: For insights into topological and strongly correlated phases of matter using computational methods.


Sheng, Ping [1987]
Hong Kong University of Science & Technology
Citation: For his contributions to the understanding of the electrical conduction mechanism, classical wave propagation/localization characteristics, and relation between micro-structure and physical properties in disordered systems.


Sher, Arden [1976]
College of William & Mary
Citation: Not available


Sherrington, David [1984]
University of Oxford
Citation: For his many contributions to the theory of disordered condensed matter.


Sherwin, Mark [2008]
University of California, Santa Barbara
Citation: For important experiments on non-equilibrium dynamics in semiconductor quantum structures driven by intense terahertz electric fields.


Shields, Howard W [1975]
Wake Forest University
Citation: Also approved by the Division of Biological Physics.


Shinar, Joseph [2004]
Iowa State University
Citation: For pioneering contributions to studies of H motion in metal hydrides and amorphous Si, and optically detected magnetic resonance studies of luminescent pi-conjugated polymers, fullerenes, and organic devices.


Shirley, Eric Lawrence [2005]
National Institute of Standards and Technology
Citation: For important contributions to the computation of the optical properties of solids from the infrared to the x-ray spectral regions.


Shklovskii, Boris Ionovich [1997]
Theoretical Physics Institute
Citation: For contributions to the theory of transport in disordered electronic systems.


Shraiman, Boris I. [1998]
AT&T Bell Laboratories
Citation: For theoretical contributions to statistical physics as applied to the non-linear dynamics of fluids and to magnetism.


Shtengel, Kirill [2015]
Univ of California, Riverside
Citation: For major theoretical contributions to the prediction and detection of non-Abelian anyons in condensed matter physics.


Shur, Michael S. [1995]
University of Virginia
Citation: For his contributions to physics of ballistic transport in semiconductors.


Si, Qimiao [2005]
Rice University
Citation: For sustained contributions to the theory of heavy fermion and disordered metals, especially their Quantum Criticality.


Sibley, William Arthur [1968]
Affiliation not available
Citation: Not available


Siddiqi, Irfan [2015]
University of California, Berkeley
Citation: For significant contributions to the development of superconducting quantum information devices and quantum measurement techniques.


Siegmann, Hans Christoph [1989]
No Company Provided
Citation: For research in the field of surface magnetism, spin-polarized electron spectroscopy, and photo-electronic properties or small particles.


Siggia, Eric D. [1986]
Cornell University
Citation: For contributions to the theoretical physics of condensed matter, particularly in the areas of dynamical systems, turbulence, and low-temperature physics.


Sigrist, Manfred [2011]
ETH Honggerberg
Citation: For research on unconventional superconductivity in cuprates, ruthenates, and heavy fermion materials.


Silsbee, Robert H [1972]
Cornell University
Citation: Not available


SIlvera, Isaac F. [1987]
Harvard University
Citation: For his contributions to low-temperature experimentation, particularly on spin-polarized atomic hydrogen and the molecular hydrogen solids.


Simmons, Jerry Alvon, Jr. [2002]
Sandia National Laboratories
Citation: For outstanding contributions to the physics of tunneling in two dimensional electronic materials, including fractional quantum Hall and double quantum well systems.


Simon, Steven H. [2005]
Bell Laboratories
Citation: For contributions to low-dimensional correlated electron theory, and for scientific leadership in research and applications of condensed matter physics and physics methods, in an industrial setting.


Singh, Rajiv R. P. [2005]
University of California
Citation: For pioneering contributions to the development and application of series expansion methods and the definitive results they provide about quantum phases both in lattice models and in real materials.


Singleton, John [2004]
Los Alamos National Laboratory
Citation: For elucidation of many-body and reduced-dimensionality effects in molecular organic crystals and semiconductor systems, featuring creative use of optical and magnetic field techniques and clear technical exposition.


Singwi, Kundan [1976]
Northwestern University
Citation: Not available


Sinha, Sunil K [1982]
Affiliation not available
Citation: Not available


Sinova, Jairo [2010]
Texas A&M University
Citation: For contributions to the understanding of spin-transport in magnetic systems, particularly the spin Hall effects.


Sirota, Eric B [2001]
ExxonMobil Research and Engineering Company
Citation: For his pioneering use of x-ray scattering techniques in soft condensed matter, particularly regarding bulk and surface physics of alkyl-chain compounds.


Skelton, Earl F. [1980]
George Washington University
Citation: Not Provided


Skocpol, William John [1987]
Boston University
Citation: For experiments probing the nonequilbrium superconductivity of phase-slip centers, and for experiments probing quantum transport in inversion layers, including single-electron trapping and universal conductance fluctuations.


Sladek, Ronald j [1968]
Affiliation not available
Citation: Not available


Slusher, Richart E [1973]
Not available
Citation: Not available


Smith, Gregory Scott [2001]
Los Alamos National Laboratory
Citation: For scattering studies of the structure and interactions of surfactant membranes and polymeric films and for pioneering novel x-ray and neutron scattering techniques for studying surfaces and interfaces.


Smith, Harold Glenn [1968]
Affiliation not available
Citation: Not available


Smith, James L [1984]
Los Alamos National Laboratory
Citation: For significant contributions in the areas of magnetism and superconductivity, notably in the actinides and transition elements.


Smith, John Robert [1981]
General Motors Research Laboratories
Citation: Not available


Smith, Neville V. [1980]

Citation: Not Provided


Snoke, David W. [2006]
University of Pittsburgh
Citation: For his pioneering work on the experimental and theoretical understanding of dynamical optical processes in semiconductor systems.


Soderlind, Per [2008]
Lawrence Livermore National Laboratory
Citation: For important contributions in electronic-structure theory for transition and actinide metals, particularly plutonium.


Sokol, Paul E. [1998]
Pennsylvania State University
Citation: For neutron scattering studies of 3He and 4He.


Solin, Stuart Allan [1984]
Washington University
Citation: For innovative work on the structure and vibrational excitations of both ordered and disordered solids and graphite intercalation compounds.


Solomon, Glenn S. [2008]
National Institute of Standards and Technology
Citation: For extensive contributions to the study of quantum optics with quantum dots.


Sondhi, Shivaji [2008]
Princeton University
Citation: For elegant work in the theory of strongly correlated electronic systems especially concerning spin textures in quantum Hall systems and spin-liquid states in frustrated quantum antiferromagnets.


Song, Yiqiao [2009]
Schlumberger Doll Research
Citation: For two-dimensional diffusion-relaxation nuclear magnetic resonance techniques for probing fluids in porous media.


Sooryakumar, Ratnasingham [2010]
Ohio State University
Citation: For the elucidation of structure, charge, and spin dynamics in condensed matter systems via Raman and Brillouin light-scattering, and for the development of mobile magnetic traps for micro-manipulation.


Sosin, Abraham [1969]
Affiliation not available
Citation: Not available


Soukoulis, Constantinos M. [1991]
Iowa State University
Citation: For imaginative theoretical contributions in the area of spin glasses and electronic and photonic transport and localization.


Spaepen, Frans A. [1989]
Harvard University
Citation: For contributions to the understanding of isoconfigurational atomic transport in metallic glasses and of crystal-melt interfaces.


Spitzer, William G [1972]
University of Southern California
Citation: Not available


Spivak, Boris Z. [2002]
University of Washington
Citation: For seminal contributions to studies of quantum interference effects in mesoscopic systems and of weak localization in disordered materials.


Srajer, George [2010]
Argonne National Laboratory
Citation: For applications of synchrotron radiation to phase transitions and the structural and magnetic properties of single crystals, multilayers, and liquid crystals.


Sridhar, S [2007]
Northeastern University
Citation: For elegant experiments providing seminal insights on left-handed metamaterials, quantum chaos, vortex and quasiparticle electrodynamics in superconductors, and collective excitations in low-dimensional materials.


Stamp, Philip [2014]
University of British Columbia
Citation: For theoretical contributions to understanding decoherence and quantum relaxation in condensed matter systems.


Stankiewicz, Jolanta Irene [2006]
Universidad de Zaragoza, Spain
Citation: For significant contributions to the physics of semimagnetic semiconductors and pioneering semiconductor research in Venezuela.


Stanley, H Eugene [1974]
Massachusetts Institute of Technology
Citation: Also approved by the Division of Biological Physics and the Division of Chemical Physics.


Stapleton, Harvey J [1976]
University of Illinois
Citation: Also approved by the Division of Biological Physics


Stassis, Constantine [1989]
Affiliation not available
Citation: For contributions to the understanding of magnetic scattering of neutrons and the growth and studies of metallic single crystals at high temperatures.


Stearns, Mary Beth [1973]
Not available
Citation: Not available


Steglich, Frank [2015]
Max Planck Institute
Citation: For seminal contributions to correlated electron physics, including discovery of unconventional superconductivity in CeCu2Si2, and explication of electronic criticality near antiferromagnetic quantum critical points.


Stein, Daniel L. [1999]
University of Arizona
Citation: For contributions to the theory of disordered systems, and the stochastic dynamics of noisy nonequilibrium systems.


Steinhardt, Paul Joseph [1986]
Princeton Univ
Citation: For his important contributions to cosmology and to the theoretical understanding of quasicrystals.


Stell, George [1976]
State University of New York, Stony Brook
Citation: Not available


Stephen, Michael John [1981]
Rutgers University
Citation: Not available


Stern, Ady [2011]
Weizmann Institute of Science
Citation: For understanding decoherence processes in quantum electronic devices, and for proposing experiments to study fractional charges.


Stern, Edward A. [1992]
University of Washington
Citation: For his development of extended x-ray fine structure and measurements on metals, alloys, and molecules.


Stewart, Gregory Randall [1993]
University of Florida
Citation: For extensive and definitive studies of the thermodynamic properties of novel materials, including heavy fermion superconductors, actinides and organic superconductors.


Stocks, George M [1982]
Affiliation not available
Citation: Not available


Stolen, Rogers Hall [1987]
Virginia Technical Institute
Citation: For the development of fiber nonlinear optics, the invention of polarization preserving fibers, and the first experimental observation of optical solitons in fibers.


Stone, Alfred Douglass [1993]
Yale University
Citation: For the theoretical discovery of the phenomenon of "Universal Conductance Fluctuations" and the explication of its microscopic origins.


Stone, Michael [2008]
University of Illinois, Urbana-Champaign
Citation: For profound contributions to the physics of quantum fluids and to the application of modern quantum field theory to condensed matter physics.


Stormer, Horst Ludwig [1985]
Alcatel Lucent, Bell Laboratories
Citation: For his pioneering work on transport in 2D inversion layers and the discovery of the fractional quantum Hall effect.


Straley, Joseph Paul [2004]
University of Kentucky
Citation: For his influential theoretical contributions to the statistical mechanics of percolation and liquid crystals.


Street, Robert Anthony [1985]
Palo Alto Research Center
Citation: For his many advances in the understanding of the gap states of amorphous semiconductors, including the importance and simplicity of characteristic defects, elucidation of recombination mechanisms, and doping.


Strinati, Giancarlo [2010]
University di Camerino
Citation: For contributions to the understanding of strongly interacting Fermi gases, including the physics of the BEC-BCS crossover.


Strongin, Myron [1972]
Brookhaven National Laboratory
Citation: Not available


Stroud, David Gordon [1991]
Ohio State University
Citation: For contributions to the understanding of a broad range of physical properties in composite media, especially linear and non-linear optical susceptibilities, classical and quantum aspects of superconductivity, and magnetotransport.


Stroud, Rhonda M. [2009]
Naval Research Laboratory
Citation: For contributions to the structure of synthetic and natural materials including quasicrystals, aerogel nanocomposites, spin-polarized thin film devices and stardust.


Sturge, Michael E [1973]
Not available
Citation: Not available


Su, Wu-Pei [2014]
University of Houston
Citation: For pioneering contributions to the theory of solitons in conducting polymers and elucidation of their topological nature.


Subbaswamy, Kumble R. [1992]
University of Kentucky
Citation: For his theory of nonlinear optical susceptibilities in insulators.


Sullivan, Neil Samuel [1987]
University of Florida
Citation: For fundamental studies of quantum solids using NMR techniques: contributions to orientational transitions in adsorbed N2 and solid hydrogen, discovery of a quadrupolar glass state in hydrogen, and elucidation of vacancies in solid 3He.


Sutherland, Bill [1989]
Affiliation not available
Citation: For contributions to the understanding of electronic states in solids.


Svensson, Eric Carl [1987]
Affiliation not available
Citation: For his neutron scattering studies of liquid 4He. especially the determination of the Bose-condensate fraction.


Swendsen, Robert H. [1983]
Carnegie Mellon University
Citation: For his contributions to our understanding of phase transitions and critical behavior in lattice models in statistical mechanics.


Symko, Orest G. [1990]
Affiliation not available
Citation: For pioneering work on nuclear cooling, careful investigation of spin glasses at very low temperatures, and a wide variety of applications of superconducting devices.


Taborek, Peter [1999]
University of California, Irvine
Citation: For experiments on the thermodynamics and kinetics of wetting.


Tahir-Kheli, Raza [2007]
Temple University
Citation: Distinguished for his contributions over a long research career to the theory of condensed matter, particularly in the fields of magnetism in perfect and disordered materials and of correlated atomic diffusion.


Taillefer, Louis [2002]
University of Toronto
Citation: For pioneering experimental studies of magneto- and thermal transport in heavy fermion and high Tc superconductors.


Takayanagi, Kunio [2003]
Tokyo Institute of Technology
Citation: For discovering and elucidating the structure of multi-shell magic number 7 radii, helical gold wires and for his contributions to our understanding of the Si(111)7x7 surface.


Tanaka, Toyoichi [1992]
Affiliation not available
Citation: For contributions to the understanding of phase transitions in gels.


Tanatar, Makariy A. [2013]
Iowa State University
Citation: For studies of the superconducting and normal states of unconventional superconductors using directional charge and heat transport measurements.


Tanner, David B. [1989]
University of Florida
Citation: For studies of the basic infrared properties of new materials.


Tao, Rongjia [2004]
Temple University
Citation: For fundamental contributions to the development of electrorheological and magnetorheological fluids and pioneering contributions to the discovery of a new property of superconductors - electric-field induced formation of superconducting balls.


Tate, Janet [2015]
Oregon State University
Citation: For contributions to structural, transport, and optical properties of a wide variety of electronic and superconducting materials.


Taub, Haskell Joseph [1995]
University of Missouri, Columbia
Citation: For his studies of the structure and dynamics of adsorbed monolayer and multilayer films, with particular focus on the influence of dimensionality and molecular shape on melting and crystal growth.


Tauc, Jan [1975]
Brown University
Citation: Not available


Taylor, Barry N [1972]
National Bureau of Standards
Citation: Also approved by the Division of Atomic, Molecular and Optical Physics, and the Division of Particles and Fields.


Taylor, Philip Craig [1982]
Affiliation not available
Citation: Not available


Te Velthuis, Suzanne [2014]
Argonne National Laboratory
Citation: For contributions to the understanding of magnetic heterostructures utilizing polarized neutron reflectivity.


Tedrow, Paul M [1978]
Massachusetts Institute of Technology
Citation: Not available


Teitel, Stephen Lewis [2000]
University of Rochester
Citation: For contributions towards the understanding and numerical modeling of critical phenomena in Josephson junction arrays and high-temperature superconductors.


Tesanovic, Zlatko [2011]
Johns Hopkins University
Citation: For the theory of topological defects, fluctuations and correlations in high-temperature and high-magnetic-field superconductors.


Tesche, Claudia Denke [1994]
Affiliation not available
Citation: For work in understanding noise and the limits of sensitivity of superconducting quantum interference devices and their application in neuromagnetism.


Testardi, Louis R [1975]
Bell Laboratories
Citation: Not available


Theis, Thomas Nicholas [1990]
IBM T.J. Watson Research Center
Citation: For optical and electrical studies of novel electronic, transport, and defect properties of semiconductors and insulators.


Thewalt, Michael L. W. [1990]
Simon Fraser University
Citation: For the development and use of sensitive optical techniques to study excitons and impurity complexes in semiconductors.


Thomas, Gordon Albert [1981]
Bell Laboratories
Citation: Not available


Thomas, Robert Leighton [1984]
Wayne State University
Citation: For contributions to improved understanding of metals through ultrasonic techniques, and for applications of acoustic and thermal-wave microscopy to non destructive materials evaluations.


Thompson, Arthur H [1981]
Exxon
Citation: Not available


Thompson, Eric D. [1980]
No Company Provided
Citation: Not Provided


Thompson, James R., Jr. [1992]
University of Tennessee, Knoxville
Citation: For his measurements on the magnetic properties of high-temperature superconductors.


Thompson, Joe David [1992]
Los Alamos National Laboratory
Citation: For his contributions to the understanding of transport, magnetic, and thermodynamic properties of novel materials, particularly those displaying strong electronic correlations, and for pioneering high-pressure studies of these materials.


Thorpe, Michael Fielding [1985]
Arizona State University
Citation: For innovative work on the vibrational and electronic properties of disordered materials, particularly amorphous semiconductors, and on insulating magnetic alloys.


Thouless, David J. [1986]
University of Washington
Citation: For origination of fundamental concepts in the many-body theory of nuclei, in statistical mechanics and critical phenomena, and in the theory of disordered magnetic and electronic systems.


Tiedje, Thomas [1987]
Univ of British Columbia
Citation: For his contributions to the understanding of electrical transport in amorphous semiconductors and for his pioneering work on amorphous semiconductor superlattices.


Timp, Gregory Louis [2006]
University of Illinois
Citation: For contributions to the fabrication of nanometer-scale structures and the understanding of transport through them.


Timusk, Thomas [1984]
McMaster University
Citation: For contributions to the understanding of the electronic and vibrational properties of solids through the application of far infrared spectroscopy techniques.


Ting, Chin-Sen [2000]
University of Houston
Citation: For contributions to transport theory in solid state systems including hot electrons in semiconductors, mixed states of superconductors, and tunneling junctions.


Tobin, James G. [2014]
Lawrence Livermore National Laboratory
Citation: For use of soft x-ray spectroscopy to investigate complex systems, including actinide based materials.


Todadri, Senthil [2013]
Massachusetts Institute of Technology
Citation: For insights into exotic phases of matter and phase transitions beyond the Landau paradigm.


Toner, John [2006]
University of Oregon
Citation: For a wealth of contributions to the theory of correlations, fluctuations, topological defects, and anomalous elasticity and hydrodynamics of partially ordered phases.


Tong, David S.Y. [2000]
University of Wisconsin, Milwaukee
Citation: For development of multiple scattering theories for surface diffraction and spectroscopy.


Torquato, Salvatore [2004]
Princeton University
Citation: For incisive contributions to the theoretical understanding of the structure and macroscopic properties of disordered materials.


Torrance, Jerry B. [1985]
No Company Provided
Citation: For major contributions to the basic understanding of the physical properties of organic solids and for some key discoveries in new organic materials, including the Neutral-Ionic Phase Transition.


Toxen, Arnold M [1968]
Affiliation not available
Citation: Not available


Tracy, Joseph C [1982]
Affiliation not available
Citation: Not available


Tranquada, John M. [1997]
Brookhaven National Laboratory
Citation: For contributions to the understanding of copper-oxide superconductors by use of x-ray absorption and neutron scattering techniques.


Tremblay, Andre-Marie [2014]
University of Sherbrooke
Citation: For development of non-perturbative techniques to understand strongly correlated systems, including the Hubbard model.


Trickey, Samuel B. [1980]
University of Florida
Citation: Not Provided


Tringides, Michael C. [2003]
Iowa State University
Citation: For his pioneering contributions in the elucidation of equilibrium and non-equilibrium adatom diffusion on single crystal surfaces and his discovery of quantum size effects in the growth of Pb islands on Si(111).


Trivedi, Nandini [2011]
The Ohio State University
Citation: For contributions to strongly correlated Fermi and Bose systems and disorder-driven quantum phase transitions.


Tsai, Jaw-Shen [2000]
NEC Fundamental Research Lab.
Citation: For his demonstration of quantum coherence of charge states in a superconducting mesoscopic system.


Tsang, Won-Tien [1986]
Affiliation not available
Citation: For outstanding work in the field of semiconductor lasers, including contributions to the development of molecular beam epitaxy for their fabrication, and for contributions to the development of chemical beam epitaxy.


Tserkovnyak, Yaroslav [2015]
Univ of California, Los Angeles
Citation: For important contributions to the theory of spin dynamics in ferromagnetic nanostructures.


Tsu, Raphael [1980]

Citation: Not Provided


Tsuei, Chang C [1974]
IBM at Yorktown Heights
Citation: Not available


Tsui, Daniel C. [1985]
Princeton University
Citation: For significant contributions to the physics of two-dimensional electronic systems, and for the co-discovery of the Fractional Quantum Hall Effect.


Tsvelik, Alexei Mikhail [2002]
Brookhaven National Laboratory
Citation: For seminal contributions to quantum magnetism and for the exact solutions of important integrable models.


Tucker, John R [2001]
University of Illinois
Citation: For discovery of new photon-assisted tunneling phenomena leading to quantum-noise-limited (sub)millimeter astronomical receivers, and other unique applications of quantum tunneling.


Tuominen, Mark [2011]
University of Massachusetts, Amherst
Citation: For contributions to nanoscale science and technology.


Turner, Thomas J [1969]
Affiliation not available
Citation: Not available


Tutuc, Emanuel [2016]
University of Texas at Austin
Citation: For contributions to the physics of 2-D electron systems.


Uemura, Yasutada [1983]
No Company Provided
Citation: For contributions that have played a leading role in the understanding of the electronic properties of two-dimensional systems.


Uemura, Yasutomo J. [1999]
Columbia University
Citation: For innovative experimental measurements using muon spin relaxations in superconductivity and magnetism.


Uher, Ctirad [1996]
University of Michigan
Citation: For studies of the low temperature properties of semimetals, metallic multilayers, magnetic superlattices, and high temperature superconductors.


Ullrich, Carsten-Andreas [2014]
University of Missouri
Citation: For contributions to the development of time-dependent density-functional theory and applications to electronic excitations in condensed matter.


Unguris, John [1996]
National Institute of Standards & Technology
Citation: For the development of experimental methods using polarized electrons applied to studies of surface multilayer magnetism.


Valla, Tonica [2012]
Brookhaven National Laboratory
Citation: For photoelectron spectroscopy studies of the electronic structure and collective dynamics of strongly correlated materials


Valles, James M. [2013]
Brown University
Citation: For experimental contributions to the understanding of the relationship between structure and the 2-dimensional superconducting-insulating transition.


Valls, Oriol Tomas [1998]
University of Minnesota
Citation: For contributions to the theory of unconventional Cooper paring and to the theory of nonequilibrium phenomena in liquids.


van der Laan, Gerrit [2003]
Daresbury Laboratory
Citation: For the discovery of the X-ray linear magnetic dichroism and outstanding contributions in the development of X-ray circular dichroism.


Van Harlingen, Dale J. [1995]
University of Illinois, Urbana-Champaign
Citation: For his investigation of the phase coherence and quantum phenomena in superconductors and the experimental determination of the symmetry of the pairing state, in high-Tc superconductors.


Van Hove, Michel Andre [1994]
Hong Kong Baptist University
Citation: For developments of the multiple-scattering theory of low-energy electron diffraction and related techniques, and their application to the structural determination of a wide variety of surfaces.


van Leeuwen, Johannes M.J. [1994]
University of Leiden
Citation: For contributions to statistical physics, in particular to the understanding of static and dynamic correlations in fluids, and to real space renormalization group theory.


Van Ostenburg, Donald O [1976]
DePaul University
Citation: Not available


Van Ruitenbeek, Jan [2013]
University of Leiden
Citation: For studies of the transport properties of small junctions and molecules.


Van Vechten, James A [1975]
IBM
Citation: Also approved by the Division of Chemical Physics.


Van Wees, Bart [2014]
Physics of Nanodevices Group
Citation: For pioneering research in charge and spin-based quantum transport in mesoscopic systems.


Vanderbilt, David [1995]
Rutgers University
Citation: For contributions in condensed matter theory, including pseudo potential, polarization theory, surfaces stress, and structural phase transitions.


Vardeny, Zeev Valentine [1995]
University of Utah
Citation: For his pioneering work on the application of photomodulation techniques and picosecond spectroscopy to the study of conducting polymers, fullerenes, amorphous semiconductors and high temperature superconductivity.


Varma, Chandra Mohan [1981]
Bell Laboratories
Citation: Not available


Varshni, Yatendra P [1976]
University of Ottowa
Citation: Also approved by the Division of Nuclear Physics and the Division of Chemical Physics


Veal, Boyd William [2001]
Argonne National Laboratory
Citation: For significant contributions to photoemission studies of transition and actinide metal compounds and for seminal studies and innovations within the YBCO family of cuprate high-temperature superconductors.


Vedam, Kuppuswamy [1975]
Penn State University
Citation: Not available


Vekhter, Ilya [2015]
Louisiana State Univ, Baton Rouge
Citation: For important contributions to the theory of unconventional superconductors in the vortex state, including probes of order parameter symmetry.


Venkataraman, Latha [2015]
Columbia University
Citation: For pioneering contributions to measurement and understanding of electron transport through single organic molecules.


Venkatesan, T. [1987]
National University of Singapore
Citation: For pioneering work in optical bistability, and dynamical ion and laser beam studies of graphite and of the diffusion and reaction kinetics or organic and compound semiconductor surfaces.


Vignale, Giovanni [1997]
University of Missouri
Citation: For contributions to density functional theory.


Vilches, Oscar Edgardo [1996]
University of Washington
Citation: For studies of adsorbed monolayer and multilayer films of isotopes of helium and hydrogen.


Vinokur, Valerii M. [1998]
Argonne National Laboratory
Citation: For contributions to the theory of vortex pinning and dynamics in a random environment.


Vishwanath, Ashvin [2013]
University of California, Berkeley
Citation: For fundamental contributions to theory of quantum phase transitions and topological phenomena in quantum matter.


Visscher, William M [1974]
Los Alamos Science Laboratory
Citation: Also approved by the Division of Nuclear Physics.


Vittoria, Carmine [1984]
Northeastern University
Citation: For the development of new microwave magnetic materials and discovery of surface spinware excitations of magnetic -non magnetic material interface.


Vlasko-Vlasov, Vitalii K. [2005]
Argonne National Laboratory
Citation: For pioneering development of magneto-optical imaging and its application to research in superconductivity and magnetism.


Vojta, Thomas [2015]
Missouri University of Science and Technology
Citation: For innovative analyses of quantum phase transitions in the presence of strong disorder.


von Molnar, Stephen [1983]
Florida State University
Citation: For his contributions towards an understanding of the physical properties of rare earth compounds and alloys, in particular, his pioneering transport studies of magnetic semiconductors.


Vos, Willem L. [2013]
University of Twente
Citation: For contributions to our understanding of multiple scattering of light in photonic band gap crystals and random media.


Voss, Richard Frederick [1983]
Florida Atlantic University
Citation: For original contributions to the understanding of random processes, fluctuations, and 1/⨍ noise in normal and superconducting films, junction devices, and music; and the experimental verification of macroscopic quantum tunneling.


Waber, James T [1974]
Northwestern University
Citation: Not available


Wakabayashi, Nobuyoshi [1980]
Keio Univ
Citation: Not Provided


Walker, William C [1975]
University of California, Santa Barbara
Citation: Not available


Walmsley, David George [2001]
Queen's University
Citation: For fundamental experimental studies of superconductivity and for novel applications of electron tunneling.


Walstedt, Russell P [1974]
Bell Laboratories
Citation: Not available


Walton, Derek [1982]
Affiliation not available
Citation: Not available


Wang, Jin [2010]
Argonne National Laboratory
Citation: For contributions to the understanding of nanoparticle/polymer thin films and superlattices, and for the development of time-resolved X-ray methods for characterizing the structure of dense liquid sprays.


Wang, Nan Lin [2012]
Chinese Academy of Sciences
Citation: For contributions to the understanding of correlated electron systems, particularly iron-based superconductors


Warren, William, Jr. [1980]
Oregon State University
Citation: Not Provided


Washburn, Sean [2000]
University of North Carolina
Citation: For experimental studies of quantum transport.


Webb, Richard A. [1985]
No Company Provided
Citation: For significant technical and scientific contributions in low temperature condensed matter physics including pioneering work in Superfluid He3, Macroscopic Quantum Tunneling, Josephson junction arrays and MOSFET devices.


Webb, Watt W [1975]
Cornell University
Citation: Also approved by the Division of Chemical Physics and the Division of Biological Physics.


Weber, Werner [1989]
Univ Dortmund
Citation: For studies of the lattice dynamics and electron-photon interactions in transition-metal compounds.


Wegner, Franz Joachim [1991]
University of Heidelberg, Germany
Citation: For his seminal contribution to the early development of renormalization group theory and for his pioneering formulation of the scaling theory of localization problem.


Weinstein, Bernard Allen [1996]
State University of New York, Buffalo
Citation: For applications of the diamond anvil cell to semiconductor physics, and experimental studies of the effects of pressure on vibrational, optical, and phase-transition phenomena in semiconductors.


Weinstock, Harold [1976]
Illinois Institute of Technology
Citation: Not available


Weisbuch, Claude [1993]
Affiliation not available
Citation: For elucidation of the optical properties of semiconductors.


Weissman, Michael B. [1993]
University of Illinois, Urbana-Champaign
Citation: For pioneering the use of the noise spectrum as a research tool, and applying it to the kinetics of magnetic and non-magnetic metals and to spin-glass materials.


Weitering, Hanno H. [2009]
University of Tennessee
Citation: For contributions to electronic instabilities and magnetic phenomena at surfaces, interfaces, and in thin film materials.


Weitz, David A. [1993]
Harvard University
Citation: For the study of novel classical physics in complex systems, emphasizing aggregation and light scattering of colloids, dynamics in multiplying media, and enhanced optical scattering from surface adsorbates.


Welp, Ulrich [2000]
Argonne National Laboratory
Citation: For pioneering magnetic measurements of phase transitions in superconducting and magnetic systems.


Wen, Hai-Hu [2013]
Chinese Academy of Sciences
Citation: For investigations of unconventional pairing mechanisms in high temperature superconductors and elucidation of their vortex dynamics.


Wen, Xiao-Gang [2002]
Massachusetts Institute of Technology
Citation: For fundamental contributions to the physics of the fractional quantum Hall effect, and for novel insights into quantum magnetism and high temperature superconductivity.


Wernick, Jack H [1977]
Bell Laboratories
Citation: Not available


Wert, Charles A [1971]
University of Illinois
Citation: Not available


West, Roy N. [1998]
University of Texas, Arlington
Citation: For contributions to the development of positron annihilation spectroscopy.


Westervelt, Robert [2007]
Harvard University
Citation: For seminal contributions to our understanding of the quantum behavior of electrons inside nanoscale semiconductor structures, including imaging the coherent flow of electron waves.


Wettlaufer, John S. [2003]
Yale University
Citation: For fundamental studies of the molecular basis for crystal growth and the interfacial transitions of ice, and their consequences in large scale phenomena within the natural environment.


White, Alice Elizabeth [1995]
AT&T Bell Laboratories
Citation: For contributions to the study of transport phenomena in metallic thin films and for her work on buried silicide films formed by ion implantation.


White, Clark Woody [1986]
No Company Provided
Citation: For basic research on laser annealing of semiconductors, ion implantation, and ion-beam surface layer analysis.


White, Robert M. [1980]
Carnegie Mellon University
Citation: Not Provided


Widom, Michael [1996]
Carnegie Mellon University
Citation: For theoretical contributions to our understanding of quasicrystals and the role played by disorder in their stabilization.


Wieder, Herman H [1982]
Affiliation not available
Citation: Not available


Wiegmann, Pavel [2003]
University of Chicago
Citation: For exact solutions of models of interacting electronic systems and quantum field theory, including the multi-channel Kondo problem and the Anderson model for magnetic impurities.


Wigen, Philip E [1982]
Affiliation not available
Citation: Not available


Wilkens, John W [1982]
Affiliation not available
Citation: Not available


Willens, Ronald H. [1986]
Affiliation not available
Citation: For contributions to the understanding of new amorphous materials and the study of their formation.


Willett, Robert L. [1999]
Bell Laboratories
Citation: For the discovery of new phenomena in half-filled Landau levels.


Williams, Arthur R. [1980]
No Company Provided
Citation: Not Provided


WIlliams, Conrad M. [1992]
Morgan State University
Citation: For his elucidation of the cubic Laves phases and the rare earth-iron-boron magnets.


WIlliams, Ellen D. [1992]
University of Maryland
Citation: For her experimental studies of the role of thermodynamics in the morphology of macroscopic surfaces.


Williams, Gary Allen [2003]
University of California, Los Angeles
Citation: For experimental and theoretical demonstrations of the role of quantized vorticity in superfluid phase transitions in two and three dimensions.


Williams, Gwyn Philip [2000]
Brookhaven National Laboratory
Citation: For the development of synchrotron radiation as a bright infrared source and for its application to studies of surface dynamics.


Wilson, Barbara Ann [1987]
Affiliation not available
Citation: For her spectroscopic studies of semiconductors, including luminescence in amorphous semiconductors, resonance modes in Si inversion layers, and band offsets in heterostructures.


Wiltzius, Pierre [1993]
Beckman Institute for Advanced Science and Technology
Citation: For pioneering experiments using light and neutron scattering to study dynamics of non-equilibrium macromolecular systems and binary fluids in porous media.


Witten, Thomas A. [1988]
University of Chicago
Citation: For theoretical contributions to our understanding of stochastic diffusive growth, colloidal aggregation, and polymer statistics.


Woelfle, Peter [2004]
Universitat Karlruhe, Germany
Citation: For his pioneering contributions in condensed matter theory, in particular on the superfluid phases of 3He, on quantum transport in disordered systems and on strongly correlated electron systems.


Wolf, Edward L. [1985]
Polytechnic University
Citation: For the study of the fundamental properties of superconductors and for opening the field of Proximity Effect Tunneling Spectroscopy (PETS).


Wolf, Stuart Alan [1984]
Naval Research Laboratory
Citation: For substantial contributions to the basic understanding of superconductivity, and to applications of superconducting materials.


Wolfe, James P. [1980]
University of Illinois, Urbana-Champaign
Citation: Not Provided


Wolfe, Raymond [1972]
Bell Laboratories
Citation: Not available


Wolford, Donald James [1988]
Iowa State University
Citation: For advances in fundamental understanding of defects and electronic properties of semiconductors.


Wolkow, Robert A. [2012]
University of Alberta
Citation: For contributions to atomic-scale characterization and fabrication processes with an emphasis on silicon surfaces


Wong, Po-Zen [2000]
University of Massachusetts
Citation: For studies of disordered magnetic systems, porous media, and random interfaces.


Woo, Chia-Wei [1975]
Northwestern University
Citation: Not available


Woodall, Jerry M [1982]
Affiliation not available
Citation: Not available


Woodruff, Truman O [1968]
Affiliation not available
Citation: Not available


Woods, Alfred D.B. [1982]
Affiliation not available
Citation: Not available


Woollam, John A. [1985]
University of Nebraska-Lincoln
Citation: For significant contributions to experimental condensed matter physics, especially electronic properties of graphite, its intercalation compounds, and amorphous carbon, and superconductivity of intercalated layered chalcogenides and ternary Chevrel compounds.


Wortis, Michael [1976]
University of Illinois
Citation: Also approved by the Forum on Physics and Society.


Wright, George B [1972]
Massachusetts Institute of Technology
Citation: Not available


Wu, Fa Yueh [1976]
Northeastern University
Citation: Not available


Wyder, Peter Rudolf [1984]
Max Planck Institute
Citation: For substantial contribution to understanding normal and superconducting metals, and transport and optical properties of semiconductors and metals, and his role in science administration.


Xiong, Peng [2012]
Florida State University
Citation: For contributions to the understanding of magnetotransport in nanostructured superconductors, ferromagnets, and their hybrids


Yacoby, Amir [2012]
Harvard University
Citation: For experiments of low-dimensional coherent transport, local imaging, and quantum computation in mesoscopic devices


Yakovenko, Victor Mikhailovich [2004]
University of Maryland
Citation: For important contributions to the theory of low-dimensional organic conductors and other correlated electronic materials.


Yakovlev, Dmitri [2009]
Univ. of Dortmund
Citation: For investigations of carrier and ionic spin dynamics in low-dimensional structures, including magnetic polaron formation.


Yang, Kun [2011]
Florida State University
Citation: For significant theoretical contributions to our understanding of novel phenomena in quantum Hall systems.


Yazdani, Ali [2009]
Princeton University
Citation: For electronic structure studies of high-temperature superconductors and magnetic semiconductors through scanning-tunneling microscopy and spectroscopy.


Yeh, Nai-Chang [2004]
California Institute of Technology
Citation: For her contributions to the understanding of cuprate superconductors, vortex dynamics and phase transitions of extreme type-II superconductors, and physical properties of ferromagnetic perovskite oxides.


Yen, William M [1977]
University of Wisconsin
Citation: Not available


Yeshurun, Yosef [2011]
Bar-Ilan University
Citation: For elucidating vortex dynamics in the cuprate superconductors.


Yethiraj, Mohana [2002]
Oak Ridge National Laboratory
Citation: For important neutron scattering studies of vortex structure, spin and lattice dynamics of high temperature and other superconductors.


Yildirim, Taner [2008]
National Institute of Standards and Technology
Citation: For combining analytic theory, first-principles computations, and neutron scattering measurements to design, discover, and understand new materials with novel physics.


Yodh, Arjun Gaurang [1998]
University of Pennsylvania
Citation: For contributions to the use of diffusing light fields in studies of the structural, dynamical, and spectroscopic properties of highly scattering materials.


Young, Allan Peter [1989]
University of California, Santa Cruz
Citation: For contributions to numerical simulations of random magnetic and quantum spin systems and to the theory of two-dimensional melting.


Yu, Clare C. [2005]
University of California, Irvine
Citation: For important contributions to the understanding of materials with strong electro-phonon coupling and of glassy materials.


Yu, Ming Lun [1986]
First Solar, LLC
Citation: For contributions to the understanding of dynamic charge transfer processes between sputtered atoms and solid surfaces, and for the application of these concepts in secondary ion mass spectrometry.


Yu, Peter Yound [1985]
University of California, Berkeley
Citation: For experiments on resonant Raman and resonant Brillouin scattering which greatly improves our understanding of exciton-photon interactions and of the properties of exciton-polaritons.


Zaanen, Jan [2008]
Leiden University
Citation: For fundamental contributions to the theory of the strongly interacting electron systems in high Tc superconductors and other doped Mott-insulators.


Zallen, Richard Henry [1976]
Xerox Research Laboratory
Citation: Not available


Zasadzinski, John [2010]
Illinois Institute of Technology
Citation: For contributions to superconducting tunneling spectroscopy.


Zeldov, Eli [2007]
Weizmann Institute of Science
Citation: For pioneering experiments that uncovered the nature of vortex lattice melting and elucidated the vortex phase diagram in high temperature superconductors.


Zettl, Alex [1999]
University of California, Berkeley
Citation: For studies of electronic materials in reduced dimensions.


Zhang, Fu Chun [1999]
University of Cincinnati
Citation: For contributions to the theory of strongly-correlated electron systems.


Zhang, Shoucheng [2005]
Stanford University
Citation: For pioneering contributions to the development and exploitation of the effective field theories of highly correlated electronic systems.


Zheludev, Andrey [2008]
Oak Ridge National Laboratory
Citation: For elegant neutron scattering investigations of quantum magnetism and quantum critical phenomena, especially in spin-chain compounds.


Zhou, Xingjiang [2016]
Chinese Academy of Sciences
Citation: For significant contributions to the development of vacuum ultraviolet laser-based angle- and spin-resolved photoemission systems, and incisive investigation into the electronic structure of high temperature cuprate and iron-based superconductors.


Zhu, Jian-Xin [2016]
Los Alamos National Laboratory
Citation: For outstanding and original contributions to correlated electron systems, specifically electronic structure in unconventional superconductors and heavy fermions.


Zimanyi, Gergely T. [2012]
University of California, Davis
Citation: For contributions to the theory of strongly correlated systems, vortices, and magnetic hysteresis


Zimmerman, William, Jr. [1998]
University of Minnesota
Citation: For research on macroscopic quantum properties and vorticity in superfluid 4HE.


Zudov, Michael [2015]
University of Minnesota - Minneapolis
Citation: For seminal experiments on nonequilibrium transport in high Landau levels of 2D systems, including discovery of microwave-induced resistance oscillations and zero-resistance states.