Title :
Magnetophotonic crystals
Author :
Inoue, M. ; Fujikawa, R. ; Baryshev, A. ; Khanikaev, A. ; Lim, P. ; Uchida, H. ; Aktsipetrov, O. ; Fedyanin, A. ; Murzina, T. ; Granovsky, A.
Abstract :
In much the same way that semiconductor crystals affect the propagation of electrons, photonic crystals (periodic composites of macroscopic dielectric media of different refractive index) affect the propagation of light, providing a new mechanism to control and manipulate the flow of light. When the constitutive material of PCs is magnetic, or even only a defect introduced into the periodic structure is magnetic, the resultant PCs (let us simply refer to as magnetophotonic crystals (MPCs) hereafter) exhibit unique optical and magneto-optical responses: The strong photon confinement associated with the magnetic defect can be exploited to enhance and optimize magneto-optical (MO) effects and optical non-linearity of existing materials.
Keywords :
light propagation; magneto-optical effects; magnetophonon effects; photonic crystals; refractive index; electron propagation; light propagation; macroscopic dielectric media; magnetic periodic structure; magneto-optical responses; magnetophotonic crystals; periodic composites; photon confinement; refractive index; semiconductor crystals; Crystalline materials; Magnetic confinement; Magnetic materials; Magnetic semiconductors; Optical materials; Optical propagation; Optical refraction; Optical variables control; Personal communication networks; Photonic crystals;
Conference_Titel :
Magnetics Conference, 2006. INTERMAG 2006. IEEE International
Conference_Location :
San Diego, CA
Print_ISBN :
1-4244-1479-2
DOI :
10.1109/INTMAG.2006.375428
