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Proceedings of 2000 International Conference on Excitonic Processes in Condensed Matter: Osaka, Japan, August 22-25, 2000

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Proceedings of 2000 International Conference held in Osaka, Japan August 22-25, 2000. Deals with topics on the excitonic processes in bulk, quantum wells, quantum dots and other confined systems.

Author(s): Kikuo Cho, Atsuo Matsui
Edition: 1st
Publisher: World Scientific
Year: 2001

Language: English
Pages: 496
City: Singapore; River Edge, N.J

CONTENTS......Page 18
Preface......Page 6
Opening Address......Page 8
Welcome Address for The 53th Yamada Conference......Page 10
Yamada Science Foundation and the Scope of Yamada Conference......Page 12
Conference Organization......Page 14
Conference Photo......Page 16
1. Introduction......Page 29
3. Experimental Results......Page 30
4. Theoretical Analysis and Discussion......Page 32
Dynamical Process of Photoionization in Semiconductor Nanocrystals......Page 34
2. Optical phonons in quantum dots......Page 39
3. Photoluminescence spectra of quantum dots......Page 40
4. Raman scattering in quantum dots......Page 42
2. Experimental Results and Discussion......Page 44
5. References......Page 47
2. Experimental......Page 48
3. Results and Discussion......Page 49
2. Absorption and Fluorescence......Page 53
4. Relaxation schemes......Page 54
5. Discussion : hints for a possible structural difference between red and blue chains......Page 56
1. Introduction......Page 57
2. Model Hamiltonian......Page 58
3. Application to Polarized Absorption Spectra......Page 59
3. Results......Page 61
2. Experimental Results......Page 66
3. Discussion......Page 68
4. Conclusions......Page 69
Photolurninescence of Biexciton in ZnO Epitaxial Thin Films......Page 71
2. Experiments......Page 75
3. Results and discussion......Page 76
4. Summary......Page 78
Optical Response of a Confined Exciton in a Sphere with the Effects of LT Splitting and Background Polarization: Comparison of Two Different Approaches......Page 79
3. Polydiacetylenes......Page 83
4. J-aggregates......Page 86
5. Conclusion......Page 87
1. Introduction......Page 88
2. Experimental results......Page 89
3. Discussion......Page 91
4. Conclusion......Page 92
Optical Spectroscopy of Individual Photosynthetic Pigment Protein Complexes......Page 93
1. Introduction......Page 97
2. EET within LH2 and from LH1 to the RC......Page 98
3. Summary......Page 100
1. Introduction......Page 101
3. Results......Page 102
1. Introduction......Page 106
3. Result and Discussion......Page 107
4. Conclusion......Page 110
2. CT States in Fullerene......Page 111
3. Mesoscopic Disorder in Sexithiophene......Page 113
2. Experimental......Page 116
3. Results......Page 117
4. Conclusion......Page 119
2. Rate of formation......Page 120
3. Results......Page 121
2. Method......Page 124
3. Results......Page 125
2. Experimental......Page 129
3. Results and Discussion......Page 130
Quasi-Degenerate Self-Trapping and its Application to Anthracene-PMDA: Phenomenon Optical Absorption and Luminescence Time-Resolved Spectroscopy......Page 133
2. Experimental Procedures......Page 137
3. Results......Page 138
4. Discussion......Page 139
2. Model Hamiltonian and calculation methods......Page 141
3. Adiabatic potential energies for photoinduced dimerization process......Page 142
4. Speculation for energy transfer in crystal with defects and dimer......Page 143
5. Conclusions......Page 144
2. Optical properties of a metal with precipitates......Page 145
3. Calculations and Discussion......Page 147
4. Conclusions......Page 149
2. Breathing Wave Packets......Page 150
3. Resonant x-ray emission in diamond......Page 152
4. Concluding Remarks......Page 154
1. Introduction......Page 155
3. Results and Discussion......Page 156
4TT Confocal Microscope for Multiphoton Optical Sectioning of GaN Film Luminescence......Page 160
2.Results and Discussion......Page 164
2. Photoinduced Spin-crossover Transition in [Fe(2-pic)3]Cl2EtOH......Page 169
3. Results and Discussions......Page 171
4. Conclusion......Page 173
2. Theoretical Treatment......Page 174
3. Numerical Results......Page 175
4. Conclusion......Page 177
1. Introduction......Page 178
3. Results and discussion......Page 179
4. Conclusion......Page 181
1. Introduction......Page 182
3. Nature of the lowest Davydov component......Page 183
4. Energy transfer in thin films......Page 184
5. Real time vibronic coupling from coherent vibrational spectroscopy.......Page 185
1. Introduction......Page 187
3. Results and discussion......Page 188
1. Introduction......Page 192
2. Model......Page 193
3. Phase transition and charge ordering......Page 194
4. Discussion......Page 195
5. Conclusion......Page 196
Bandgap Renormalization Due to High-Density Carriers in ZnO Epitaxial Thin Films......Page 197
3. Results and Discussion......Page 201
4. Conclusion......Page 204
2. Nonanalytic Part......Page 205
3. Numerical Results......Page 206
4. Summary and Discussion......Page 208
3. Results......Page 209
4. Discussion......Page 211
5. Conclusion......Page 212
1. Introduction......Page 213
3. Results......Page 214
4. Discussion......Page 215
2. Experimental......Page 217
3. Results and Discussion......Page 218
2. Model Hamiltonian......Page 221
3. Dynamic disorder......Page 222
4. Results......Page 223
5. Conclusions......Page 224
2. Experiment......Page 225
3. Discussion......Page 228
2. Experimental procedure......Page 229
3. Results and discussion......Page 230
2. Experimental......Page 233
3. Results and Discussion......Page 234
1. Introduction......Page 237
2. Experimental......Page 238
3. Results and discussion......Page 239
1. Introduction......Page 241
3. Results......Page 242
4. Conclusions......Page 243
1. Introduction......Page 245
2. Theoretical Framework......Page 246
3. Demonstration and Discussion......Page 247
2. Experimental......Page 249
3. Results and Discussion......Page 250
3. Results and discussion......Page 253
2. Experimental Procedures......Page 257
3. Results......Page 258
4. Discussion......Page 260
2. Basic Equations......Page 261
3. Ordered State......Page 262
4. Elementary Excitations......Page 263
2. Pump Built-in Hamiltonian......Page 265
3. Absorption Spectrum......Page 266
4. Discussion......Page 267
5. Further Problems......Page 268
2. The Model and Calculation......Page 269
3. Results......Page 271
4. Discussions......Page 272
2. Model and Method......Page 273
3. Results......Page 274
4. Summary......Page 276
1. Introduction......Page 277
3. Results and Discussion......Page 278
4. Conclusions......Page 280
2. Method......Page 281
3. Potential energy curves of TCDU......Page 282
4. Conclusion......Page 284
1. Introduction......Page 285
3. Results and discussion......Page 286
4. Summary......Page 288
3. Results and discussion......Page 289
1. Introduction......Page 293
2. Theoretical......Page 294
3. Results......Page 295
2. Theoretical model......Page 297
3. Ground states and excitations......Page 298
4. Quantum motion of NIDWs......Page 299
2.Sample Preparation......Page 301
3.Results and Discussions......Page 302
3. Results and discussion......Page 305
2. Experimental......Page 309
3. Results......Page 310
5. Acknowledgements......Page 312
2 Experimental......Page 313
3 Results and discussion......Page 314
4 Summary......Page 316
1. Exciton transport in bulk crystals......Page 317
3. Exciton transport in biological molecular assemblies......Page 319
1.Introduction......Page 321
3.Results and discussion......Page 322
4 References......Page 324
2. Experimental......Page 325
3. Results and discussion......Page 326
4. Conclusion......Page 328
1. Introduction......Page 329
2. Model Hamiltonian......Page 330
3. Results and Discussion......Page 331
1. Introduction......Page 333
3. Results and discussion......Page 334
4. Conclusion......Page 336
2. Results and discussion......Page 337
1. Introduction......Page 341
3. Results and Discussion......Page 342
1. Introduction......Page 345
3. Results and Discussion......Page 346
1. Introduction......Page 349
3. Results and Discussion......Page 350
2. Experimental......Page 353
3. Results and Discussion......Page 354
1. Introduction......Page 357
3. Results and discussion......Page 358
4. Conclusions......Page 360
2. Experimental Procedures......Page 361
3. Results and Discussions......Page 362
4. Summary......Page 363
2. Model Hamiltonian......Page 364
3. Results and discussion......Page 365
2. Correlated random variables......Page 368
3. Optical responses......Page 369
High Density Exciton Dynamics of CuBr Nanocrystals Embedded in PMMA......Page 372
2. Exact Bosonization for Two Is Excitons......Page 376
3. Interactions in a Bosonized Form......Page 377
4. Concluding Remarks......Page 378
1. Introduction......Page 380
3. Results and Discussion......Page 381
2. Experimental......Page 384
3. Results and discussion......Page 385
4. Conclusion......Page 386
1 Model and motivations......Page 388
2 Numerical results......Page 389
3 Conclusions......Page 391
2. Experiment......Page 392
3. Results and Discussion......Page 393
2. Solving the Maxwell's Equations......Page 396
3. Numerical Results and Discussion......Page 398
4. Conclusion......Page 399
Comprehensive Study of Frohlich Polaron......Page 400
2. Experiments......Page 404
3. Analysis and Discussions......Page 405
4. Conclusions......Page 407
3. Results and discussion......Page 408
4.Conclusion......Page 411
2. Experimental......Page 412
3. Results and Discussion......Page 413
4. Conclusions......Page 415
1. Introduction......Page 416
3. Results and discussion......Page 417
1. Introduction......Page 420
2. Experimental......Page 421
3. Results and Discussion......Page 422
2. Experimental......Page 425
3. Results and Discussion......Page 426
1. Introduction......Page 429
3. Results and Discussion......Page 430
4. Conclusion......Page 432
1. Introduction......Page 433
2. Theoretical model......Page 434
3. Results and discussion......Page 435
2. Experimental......Page 437
3. Results and discussion......Page 438
4. Summary......Page 440
2. Experimental......Page 441
3. Results and Discussion......Page 442
4. Conclusions......Page 444
2. Method of Calculation......Page 445
3. Numerical Results......Page 446
4. Summary......Page 448
2. Model and Calculation......Page 449
3. Results and Discussion......Page 450
2. Experimental......Page 453
3. Results and discussion......Page 454
3. Results......Page 457
4. Discussion......Page 459
1. Introduction......Page 461
2. Experimental......Page 462
3. Results and Discussion......Page 463
2. Experimental Procedures......Page 465
3. Results and Discussions......Page 466
4. Conclusion......Page 468
1. Introduction......Page 469
3. Results and Discussion......Page 470
2. A model system......Page 473
3. Conclusion......Page 476
3. Model......Page 477
4. Results and Discussion......Page 478
6. References......Page 480
2. Model Hamiltonian......Page 481
3. Equations of Motion for Expectation Value of Polariton Operators......Page 482
4. Numerical Calculations......Page 483
2. Experiment......Page 485
3. Results and discussion......Page 486
4. Conclusion......Page 488
1. Introduction......Page 489
3. Results and Discussion......Page 490
3. Results and discussion......Page 492
4. Conclusions......Page 495