Magneto-Optics,9783540659617

Magneto-Optics

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ISBN13: 9783540659617
ISBN10: 3540659617
Format: Hardcover
Pub. Date: 1999-12-01
Publisher(s): Springer Verlag
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Summary

The book is designed to provide graduate students and research novices with an introductory review of recent developments in the field of magneto-optics. The field encompasses many of the most important subjects in solid state physics, chemical physics and electronic engineering. The book deals with (1) optical spectroscopy of paramagnetic, antiferromagnetic, and ferromagnetic materials, (2) studies of photo-induced magnetism, and (3) their applications to opto-electronics. Many of these studies originate from those of ligand-field spectra of solids, which are considered to have contributed to advances in materials research for solid-state lasers.

Table of Contents

Spectroscopy and Optical Applications of Rare-Earth-and Transition-Metal-Doped Materials
1(36)
T. Kushida
Introduction
1(1)
Optical Spectra of Rare-Earth and Transition-Metal Ions in Solids
2(20)
Solid-State Laser Materials
22(6)
Long-Lasting Phosphorescent Phosphors and Photostimulable Phosphors
28(3)
Persistent Spectral Hole-Burning
31(6)
References
33(4)
Elementary Excitations in Magnetically Ordered Materials
37(38)
N. Kojima
Introduction
37(1)
Double Excitations in Spin Cluster System
38(1)
Cooperative Excitations in the Magnetically Ordered State
39(18)
Exotic Elementary Excitations in Frustrated Spin System
57(7)
Exciton Dynamics in Magnetically Ordered State
64(11)
References
73(2)
Raman Spectroscopy of Magnetic Compounds with Strong Electron-Correlation
75(32)
S. Sugai
Strongly Correlated Electron System
75(7)
Raman Scattering
82(8)
Raman Scattering in Two-Leg Spin Ladders Sr14---x---yCaxYyCu24O41
90(17)
References
105(2)
Nonlinear Optics of Antiferromagnetic Compounds
107(30)
Y. Tanabe
M. Fiebig
E. Hanamura
Introduction
107(5)
Macroscopic Theory of the Nonlinear Susceptibilities
112(4)
Microscopic Theory of the Nonlinear Susceptibilities
116(12)
Comparison with Experiments
128(3)
Discussion and Future Problems
131(6)
References
135(2)
Faraday and Kerr Effects in Ferromagnets
137(42)
K. Shinagawa
Introduction
137(1)
Faraday and Kerr Effects
138(9)
Kerr Rotation in Ferromagnetic CrBr3
147(7)
Faraday Rotation in Magnetic Garnets
154(17)
Summary and Outlook
171(8)
References
173(2)
Addenda
175(4)
Magnetic Polarons in Diluted Magnetic Semiconductors
179(32)
S. Takeyama
Introduction
179(2)
Bound Magnetic Polarons
181(3)
Formation Mechanism of Magnetic Polarons
184(2)
Localized Magnetic Polarons
186(1)
Optical Detection of Free Magnetic Polarons
187(11)
Two-Dimensional Exciton Magnetic Polarons
198(8)
Summary
206(5)
References
207(4)
Magneto-Optics of Diluted Magnetic Semiconductors: New Materials and Applications
211(34)
K. Ando
Introduction
211(1)
sp-d Exchange Interactions and Magneto-Optics
212(7)
Cd1---xMnxTe: A Prototype Diluted Magnetic Semiconductor
219(7)
Magneto-Optics of New Diluted Magnetic Semiconductors
226(9)
Magneto-Optic Applications of Diluted Magnetic Semiconductors
235(6)
Conclusion
241(4)
References
241(4)
Optical Control of Magnetic Properties in Molecule-Based Magnets
245(26)
S. Ohkoshi
K. Hashimoto
Introduction
245(1)
Molecule-Based Magnet
246(1)
Magnetism of Prussian Blue Analogs
247(3)
Mixed Ferro-Ferrimagnetism
250(7)
Photomagnetism
257(6)
Photo-Induced Magnetic Pole Inversion
263(5)
Conclusion
268(3)
References
269(2)
Magneto-Optical Recording
271(48)
M. Kaneko
Review of Magneto-Optical Disks
271(1)
Manufacturing of Optical Disks
272(3)
Readout of Signals from an Optical Disk
275(5)
Magnetic Material for Thermo-Magnetic Recording
280(4)
Recording on Magneto-Optical Disks
284(4)
Magneto-Optical Effect in Readout from Magneto-Optical Disk
288(6)
High-Density Magneto-Optical Recording
294(25)
References
315(4)
A Appendix: The Magnetic Space-Group and Its Applications 319(10)
S. Sugano
A.1 Non-Unitary Group
319(2)
A.2 Co-Representation
321(1)
A.3 Wigner Test
322(1)
A.4 Applications to Spectroscopy
323(6)
References
328(1)
Index 329

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