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E-Book, Englisch, 118 Seiten, Web PDF

Burstein / Kawamura Inelastic Light Scattering


Proceedings of the 1979 US-Japan Seminar held at Santa Monica, California, USA, 22-25 January 1979

E-Book, Englisch, 118 Seiten, Web PDF

ISBN: 978-1-4831-5460-2
Verlag: Elsevier Science & Techn.
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Inelastic Light Scattering documents the proceedings of the 1979 US-Japan Seminar held at Santa Monica, California, USA, 22-25 January 1979. The seminar is one of a continuing series of seminars on ''Current Developments in Science,'' which are jointly sponsored by the United States National Science Foundation and the Japan Society for the Promotion of Science as part of the United States-Japan Cooperative Science Program. These joint seminars provide a medium for personal interactions between theorists and experimentalists from the two countries. The aim of the joint seminar on inelastic light scattering was to organize a program which would focus on important theoretical and experimental developments that reflect the complementarity of Japanese and US efforts in this important field. The topics covered by the papers presented at the seminar include resonant Raman scattering and luminescence; light scattering under intense illumination; resonant Brillouin scattering and non-local optics; enhanced Raman scattering by molecules adsorbed in metals; inelastic light scattering in superionic conductors and in glasses; Raman scattering by soft modes in IV-VI compound semiconductor and ferroelectrics; and central peaks in inelastic light scattering at structural phase transitions.
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Autoren/Hrsg.

Burstein, Elias
Kawamura, H.

Weitere Infos & Material

1;Front Cover ;1
2;Inelastic light Scattering;2
3;Copyright Page;3
4;Table of Contents;4
5;PARTICIPANTS OF THE U.S. - JAPAN SEMINAR;6
6;EDITORIAL;8
7;PREFACE;10
8;CHAPTER
1. A STOCHASTIC THEORY OF SECOND ORDER OPTICAL PROCESSES;12
8.1;1. GENERAL FORMULATION,;12
8.2;2. A THREE LEVEL SYSTEM.3;13
8.3;3. OFF-DIAGONAL MODULATION IN A FOUR LEVEL;14
8.4;4. AN OPTICAL CENTER COUPLED WITH A BROWNIAN;15
8.5;5. TRANSIENT RESPONSE;16
8.6;6. CONCLUSION;17
8.7;REFERENCES;17
9;CHAPTER 2. ON THE VIBRONIC THEORY OF RESONANCE RAMAN SCATTERING;18
9.1;REFERENCES;23
10;CHAPTER 3. BISTABILITY AND ANOMALIES IN ABSORPTION AND RESONANCE SCATTERING OF INTENSE LIGHT;24
10.1;1. Introduction;24
10.2;2. Nonlinear Rate Equation;24
10.3;3. Homogeneous Stationary Solutions with Instability;25
10.4;4. Global Stability;25
10.5;5. Bistability and Domain Boundary;26
10.6;6. Analogies to Classical/Quantum Mechanics and Thermodynamicas;27
10.7;7. Anomalies in the Optical Spectra;28
10.8;REFERENCES;28
11;CHAPTER
4. RESONANT RAMAN SCATTERING AND LUMINESCENCE DUE TO EXCITONIC MOLECULE;30
11.1;1. Introduction;30
11.2;2. Giant Two-Photon Absorption due to Excitonic Molecule;30
11.3;3. Third Order Optical Process;31
11.4;4. Transient Emission Spectrum;32
11.5;5. Discussions;34
11.6;References;35
12;CHAPTER
5. RECENT DEVELOPMENTS IN NON-LOCAL OPTICS;36
12.1;I. Introduction;36
12.2;II. Resonant Inelastic (Brillouin, Raman Scattering;37
12.3;III. Transient Optics;37
12.4;IV. Lateral Beam Shift and Selective Total Internal Reflection;38
12.5;V. Gyrotropic - Spatially Dispersive Phenomena;38
12.6;REFERENCES;39
13;CHAPTER 6. BRILLOUIN SCATTERING OF EXCITON POLARITONS AND ADDITIONAL BOUNDARY CONDITIONS;40
13.1;REFERENCES;42
14;CHAPTER 7. INTERFERENCE ANALOGY OF RAMAN-LUMINESCENCE PROBLEM AND EXPERIMENTAL DISCRIMINATION BY POLARIZATION CORRELATION;44
14.1;REFERENCES;48
15;CHAPTER 8. The Nature of the Raman Damping Constant and Its Effect Upon Resonant Light Scattering From Molecular Systems in the Weak Field Limit;50
15.1;1. INTRODUCTION;50
15.2;2. THE ISOLATED MOLECULE;50
15.3;3. THE CONDENSED PHASE;51
15.4;4. CONCLUSION;52
15.5;REFERENCES;52
16;CHAPTER
9. RESONANCE RAMAN SCATTERING AND LUMINESCENCE UNDER TWO-PHOTON EXCITATION;54
16.1;1. Introduction;54
16.2;2. Giant Two-Photon Absorption Band in CuC1;54
16.3;3. Two-Photon Resonance Raman Scattering of CuC1;54
16.4;4. Relaxation of Excitonic Molecules Generated by Resonant Excitation;58
16.5;REFERENCES;60
17;CHAPTER 10. RESONANT EXCITATION OF BOUND EXCITON LUMINESCENCE IN GaAsn -1xP x ALLOYS*;62
17.1;Introduction;62
17.2;Results for Donors;63
17.3;Results for Nitrogen;64
17.4;Conclusions;65
17.5;REFERENCES;65
18;CHAPTER 11. ENHANCED RAMAN INTENSITY OF MOLECULES ADSOREED ON METAL SURFACES EXPERIMENTS AND THEORY;66
18.1;REFERENCES;67
19;CHAPTER
12. ENHANCED RAMAN SCATTERING BY MOLECULES ADSORBED ON ELECTRODES—A THEORETICAL MODEL;70
19.1;References;72
20;CHAPTER
13. GIANT RAMAN SCATTERING BY PYRIDINE AND CN~ ADSORBED ON SILVER*;74
20.1;REFERENCES;77
21;CHAPTER
14. LIQUID-LIKE RAMAN SCATTERING BY SUPERIONIC MATERIALS;78
21.1;REFERENCES;80
22;CHAPTER
15. LATTICE DYNAMICS OF SIMPLE SUPERIONIC CONDUCTORS;82
22.1;ABSTRACT;82
22.2;REFERENCES;85
23;CHAPTER
16. LIGHT SCATTERING STUDY OF FERROELASTICS Hg2Br2;86
23.1;INTRODUCTION;86
23.2;EXPERIMENTAL;86
23.3;REFERENCES;89
24;CHAPTER
17. Light Scattering from Correlated Ion Fluctuations in Ionic Conductors;90
24.1;Acknowledgement;92
24.2;References;92
25;CHAPTER
18. RAMAN SCATTERING AND BOND STRUCTURE IN CHALCOGENIDE GLASSES (Se-Ge SYSTEM);94
25.1;REFERENCES;95
26;CHAPTER
19. CONJECTURE ON THE EFFECT OF SMALL ANHARMONICITY ON VIBRATIONAL MODES OF GLASS;96
26.1;1. Introduction;96
26.2;REFERENCES;99
27;CHAPTER
20. RAMAN SCATTERING FROM SOFT .0-..0.0. IN IV-VI COMPOUND SEMICONDUCTORS;100
27.1;REFERENCES;103
28;CHAPTER
21. LIGHT SCATTERING STUDIES ON STRUCTURAL PHASE TRANSITIONS;106
28.1;§1 Introduction;106
28.2;§2 Raman Scattering from Polar!tons of Overdamped Soft Phonons;106
28.3;§3 Intrinsic Ferroelastic Phase Transition;108
28.4;§4 High Pressure Raman Scattering;109
28.5;Discussions;111
28.6;References;112
29;CHAPTER
22. ANHARMONIC PHONONS AND CENTRAL PEAKS AT STRUCTURAL PHASE TRANSITIONS;114
29.1;Introductio;114
29.2;Ferrodistortive PbsGe3O11;114
29.3;Antiferrodistortive SrTi03;116
29.4;Incommensurate: K2Se04 and BaMnF4;117
29.5;REFERENCES;120

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