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Article
Novel Magnetic Photonic Crystal Structures for Magnetic Field Sensors and Visualizers
ECU Publications Pre. 2011
  • Mikhail Vasiliev, Edith Cowan University
  • Viatcheslav A Kotov, Institute of Microtechnology-Spin MT, Moscow, Russia
  • Kamal E Alameh, Edith Cowan University
  • Vladimir I Belotelov, Institute of Microtechnology-Spin MT, Moscow, Russia
  • Anatoly K Zvezdin, Institute of Microtechnology-Spin MT, Moscow, Russia
Publication Date
1-1-2008
Document Type
Journal Article
Publisher
IEEE Magnetics Society
Faculty
Computing, Health and Science
School
Electron Science Research Institute
RAS ID
5515
Comments
This article was originally published as: Vasiliev, M. , Kotov, V.A., Alameh, K.E. , Belotelov, V.I., & Zvezdin, A.K. (2008). Novel Magnetic Photonic Crystal Structures for Magnetic Field Sensors and Visualizers. IEEE Transactions on Magnetics, 44(3), 323-328. Original article available here
Abstract

Optimized one-dimensional (1-D) magnetophotonic crystals greatly increase the sensitivity of magnetooptical sensors, which are widely used in magnetooptical imaging to observe the magnetic domain patterns in magnetic materials, to observe the vortex states in superconductors, to detect small bits in magnetooptical recording media, to visualize defects in ferromagnetic objects, and to measure the value and spatial distribution of stray magnetic fields. This paper examines the properties of such devices operating in the optimized reflection (doubled Faraday rotation) mode and discusses the use of 1-D magnetophotonic crystals as sensors.

Disciplines
Citation Information
Mikhail Vasiliev, Viatcheslav A Kotov, Kamal E Alameh, Vladimir I Belotelov, et al.. "Novel Magnetic Photonic Crystal Structures for Magnetic Field Sensors and Visualizers" (2008)
Available at: http://works.bepress.com/mikhail_vasiliev/55/