American Physical Society
American Physical Society Sites|APS|Journals|PhysicsCentral|Physics
 
Login| Become a Member|Contact Us
  • Publications
    • Journals of the American Physical Society
    • APS News
    • Physics
    • Physics Today
    • Capitol Hill Quarterly
    • Other APS Publications
    • Reciprocal Society Newsletters
  • Meetings & Events
    • March Meeting
    • April Meeting
    • Meeting Calendar
    • Abstract Submission
    • Archives of the Bulletin of the American Physical Society
    • Policies & Guidelines
    • Meeting Presentations
    • Virtual Press Rooms
  • Programs
    • Education
    • International Affairs
    • Physics Outreach
    • Women in Physics
    • Minorities in Physics
    • Prizes, Awards & Fellows
  • Membership
    • Join APS
    • Renew Membership
    • Member Directory
    • My Member Profile
    • Member Services
    • APS Units
  • Policy & Advocacy
    • Issues
    • Reports & Studies
    • APS Statements
    • Advocacy Tools
    • Advocacy Resources
    • Fellowships & Fellows
    • Contact APS Public Affairs
  • Careers In Physics
    • Physics Jobs
    • Becoming a Physicist
    • Career Guidance
    • Physics Careers Statistical Data
  • About APS
    • Mission Statement
    • Society Governance
    • Society History
    • Donate to APS
    • APS Jobs
    • Contact Us
About APS
  • Mission Statement
  • Society Governance
  • Society History
  • Donate to APS
  • APS Jobs
  • Contact Us

Email Email   Print Print     Share Share
 
Home   |   About APS   |   Images from Physics   |   Physics Images Archive   |   Anisotropy Patterns

Anisotropy Patterns



Many studies that focus on physical systems make the simplifying assumption that direction is unimportant. Such systems are called isotropic. Water waves, for example, travel at the same speed in every direction, provided the depth of the water is fairly uniform. In the real world, many phenomena are highly dependent on direction. For example, velvet looks and feels differently when rubbed from different directions. Systems that are directionally dependent are called anisotropic.

The anisotropic image below was created using numerical simulations of wave patterns. When a wave is launched in all directions from the center of this anisotropic square, it creates this pattern after colliding with the edges of the anisotropic region.

Models of anisotropic materials are useful for understanding phenomena like the coordinated motions of tissues in a beating heart or the patterns that can form when chemicals flow through systems at rates that are directionally dependent.

 anisotropy patterns

Image credit:  PRE Kaleidoscope Images ©2009 American Physical Society

Gray arrow   "Complex-anisotropy-induced pattern formation in bistable media," Phys. Rev. E 79, 026105 (2009)

Gray arrow  All APS Physics Images

Home | APS Jobs | Media Center | Terms of Use | Site Map

Follow APS: Feeds Facebook LinkedIn Wordpress Twitter Google Plus YouTube

© 2013 American Physical Society