LEADER 10191nam 2200637Ia 450 001 9910973021103321 005 20251117080312.0 010 $a1-61209-040-0 035 $a(CKB)2670000000148788 035 $a(EBL)3018955 035 $a(SSID)ssj0000688986 035 $a(PQKBManifestationID)12268898 035 $a(PQKBTitleCode)TC0000688986 035 $a(PQKBWorkID)10613138 035 $a(PQKB)10953848 035 $a(MiAaPQ)EBC3018955 035 $a(Au-PeEL)EBL3018955 035 $a(CaPaEBR)ebr10662761 035 $a(OCoLC)777548842 035 $a(BIP)36330767 035 $a(BIP)32623273 035 $a(EXLCZ)992670000000148788 100 $a20101015d2011 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aExciton quasiparticles $etheory, dynamics, and applications /$fRandy M. Bergin, editor 205 $a1st ed. 210 $aNew York $cNova Science Publishers$dc2011 215 $a1 online resource (425 p.) 225 0 $aPhysics research and technology 300 $aDescription based upon print version of record. 311 08$a1-61122-318-0 320 $aIncludes bibliographical references and index. 327 $aIntro -- EXCITON QUASIPARTICLES: THEORY, DYNAMICS AND APPLICATIONS -- EXCITON QUASIPARTICLES: THEORY, DYNAMICS AND APPLICATIONS -- CONTENTS -- PREFACE -- Chapter 1 EXCITON POLARITON DISPERSION IN MULTINARY COMPOUNDS -- ABSTRACT -- 1. STRONG AND WEAK POLARITON EFFECTS IN THE REGION OF EXCITON RESONANCES IN MULTINARY COMPOUNDS -- 2. EXCITON SPECTRA IN CRYSTALS WITH STRONG POLARITON EFFECT (?LT > -- > -- ?) -- 2.1. Intraband and Interband Relaxation of Exciton Polaritons. Determination of Parameters of Polariton Disperssion -- 2.2. Spectral-Spatial Diffusion of Polaritons -- 2.3. Relative Contribution to the Emission of Upper and Lower Polariton Branches -- 3. BREWSTER EFFECTS IN EXCITON REFLECTIVITY SPECTRA -- 3.1. Brewster Effect in the Model of the "Dead" Layer -- 3.2. Approximation of Normal Incidence at the Layer-Crystal Interface -- 3.3. Brewster Effect in the Amplitude and Phase Spectra of Exciton Reflectivity in ZnP2 Crystals -- 4. EXCITON SPECTRA IN CRYSTALS WITH WEAK POLARITON EFFECT (?LT ? ?) -- 4.1. Free Exciton Spectra in CuGaS2 Crystals -- 4.2. Free Exciton Spectra in CuAlS2 Crystals -- 4.3. Free Exciton Spectra in CuGaSe2 Crystals -- 4.4. Free Exciton Spectra in CuAlSe2 Crystals -- 5. POLARITON MODES AT OBLIQUE INCIDENCE OF THE LIGHT ON THE CRYSTAL SURFACE -- 5.1. The Effective Index of Refraction -- 5.2. Calculated Reflectivity Spectra of CdS -- 5.3. Spectra of Oblique Reflectance in Crystals with Weak Polariton Effect ( ?LT < -- ) -- 5.4. Interference of Additional Waves in the Case of Weak Exciton Polaritons -- 5.5. Interference in Luminescence Spectra of Exciton Polaritons -- 6. EXCITON-PHONON LUMINESCENCE SPECTRA WITH EXCITON-POLARITON ANNIHILATION -- 6.1. Energy Exchange between the Upper and Lower Modes of Polariton Branches -- 7. BOUND EXCITONS IN MULTINARY COMPOUNDS. 327 $a7.1. Resonance Impurity Emission in CuGaS2 Crystals -- 8. WAVELENGTH MODULATED EXCITON REFLECTIVITY SPECTRA IN CUALSE2 CRYSTALS -- 8.1. Calculation of the Contour of Wavelength Modulated Reflectivity Spectra in the Case of Weak Polariton Effect -- 9. RESONANCE RAMAN SCATTERING AND OPTICAL ORIENTATION OF EXCITONS IN ?UGAXAL1-XS2 CRYSTALS -- 10. RESONANCE RAMAN SCATTERING IN CUGAXIN1-XS2 SOLID SOLUTIONS -- CONCLUDING REMARKS -- REFERENCES -- Chapter 2 EXCITON RELAXATION DYNAMICS IN COLLOIDAL CORE AND CORE/SHELL CDSE NANORODS -- ABSTRACT -- 1. INTRODUCTION -- 1.a. Colloidal Nanocrystals -- 1.b. Core/Shell Nanostructures -- 1.c. Exciton Relaxation Processes -- 2. EXPERIMENTAL -- 2.a. Samples: Core and Core/Shell Nanorods -- 2.b. Theoretical Model -- 2.c. Spectroscopic Methods -- 3. EXCITON RELAXATION PROCESSES: ROLE OF SURFACE AND INTERFACE DEFECT STATES -- 3.a. Differential Transmission Spectra -- 3.b. Bleaching Dynamics -- 3.b.1. Intraband relaxation -- 3.b.2. Trapping mechanism -- 3.b.3. Auger processes -- 3.c. Stimulated Emission and Photo-Absorption Processes -- 3.c.1. Core sample -- 3.c.2. Core/shell sample -- 4. SHELL THICKNESS EFFECTS ON DEFECT STATES DISTRIBUTION -- 4.a. Differential Transmission Spectra -- 4.b. Bleaching Dynamics -- 4.c. Stimulated Emission and Photo-Absorption Processes -- 5. ROLE OF THE SHELL THICKNESS ON EXCITON EMISSION PROCESS -- 5.a. Experimental Results -- 5.b. Discussion -- 6. EXCITON RELAXATION PROCESSES AT RESONANT PUMP ENERGY -- 6.a Differential Transmission Spectra -- 6.b. Bleaching Dynamics -- 6.b.1. Role of defect states on Auger processes and competition with SE -- 6.b.2. Confined acoustic phonons -- 7. CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 3 RADIATION-ASSISTED PREPARATION OF POWDER MATERIALS AND THEIR EXCITON LUMINESCENCE -- ABSTRACT. 327 $a1. INTRODUCTION - EXCITON LUMINESCENCE IN NANOPOWDERS -- 2. PREPARATION OF NANOPOWDER MATERIALS USING IONIZING AND UV RADIATION -- 3. PREPARATION OF ZNO BASED MATERIALS USING RADIATION METHODS -- 3.1. Preparation Methods Using Visible Light, Ultraviolet and Ionizing Radiation -- 3.2. Preparation and Excitonic Luminescence of Powder ZnO Prepared under UV-VIS and Ionizing Radiation -- Irradiation of solutions and characterization of solid phase -- Luminescence properties -- 4. PREPARATION OF YAG BASED MATERIALS WITH EXCITON LUMINESCENCE -- 4.1. Preparation and Excitonic Luminescence of Powder YAG Prepared under UV-VIS and Ionizing Radiation -- 5. CONCLUSION -- ACKNOWLEDGMENT -- 6. REFERENCES -- Chapter 4 THE SEMICLASSICAL MOLECULAR EXCITON: PATH/TIME ORDERED PROPAGATORS VS. STOCHASTIC DYNAMICS -- INTRODUCTION - THE TRANSITION DENSITY AND SECOND QUANTIZATION -- THEORY -- A. The Exciton Propagator -- B. The Gauge-Theoretic Picture -- DISCUSSION -- A. Loop Theory vs. Platt's Ring Theory, M.O. Theory -- B. The Keldysh Contour and the Argument Principle -- CONCLUSION -- APPENDIX -- ACKNOWLEDGMENTS -- REFERENCES -- Chapter 5 SOLITONS AND EXITONS IN SEISMOTECTONIC PROBLEMS -- ABSTRACT -- INTRODUCTION -- PROBLEM FORMULATION -- PROBLEM SOLUTION -- ACTION-AT-A-DISTANCE OF THE ROTATION ELASTIC FIELD -- EARTHQUAKE MIGRATION -- CONCLUSIONS -- ACNOWLEDGMENTS -- REFERENCES -- Chapter 6 EXCITON DYNAMICS STUDY OF InAs/GaAs QUANTUM DOT HETEROSTRUCTURES -- ABSTRACT -- INTRODUCTION -- EXPERIMENTS -- RESULTS AND DISCUSSION -- CONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- Chapter 7 EXCITON DIFFUSION LENGTH IN TITANYL PHTHALOCYANINE THIN FILMS AS DETERMINED BY THE SURFACE PHOTOVOLTAGE METHOD -- ABSTRACT -- INTRODUCTION -- PRINCIPLES OF THE SURFACE PHOTOVOLTAGE METHOD -- EXPERIMENT -- Preparation of the Layers. 327 $aThe Transmittance and Reflectance Spectra Measurements Optimized for Thin Films -- Surface Photovoltage Spectra -- RESULTS -- DISCUSSION -- CONCLUSION -- APPENDIX -- ACKNOWLEDGMENT -- REFERENCES -- Chapter 8 ACCURACY OF THE COHERENT POTENTIAL APPROXIMATION FOR FRENKEL EXCITONS IN ONE-DIMENSIONAL ARRAYS WITH GAUSSIAN DIAGONAL DISORDER AND NEAREST-NEIGHBOR TRANSFER -- ABSTRACT -- INTRODUCTION -- MACROSCOPIC DISORDER AND THE COHERENT POTENTIAL APPROXIMATION -- CONCLUSION -- REFERENCES -- Chapter9EXCITONFANORESONANCEINSEMICONDUCTORHETEROSTRUCTURESANDITSRELATEDPHENOMENA -- Abstract -- 1.Introduction -- 2.TheoreticalFramework -- 2.1.AdiabaticExpansion -- 2.2.R-MatrixPropagation -- 2.3.TimeDelay -- 3.ExcitonicFRinSemiconductorHeterostructures -- 3.1.LinearExcitonicFR -- 3.1.1.QWs -- 3.1.2.WSLs -- 3.2.Non-LinearExcitonicFR -- 3.2.1.Introduction -- 3.2.2.Theory -- 3.2.3.AnalyticModelwithoutCoulombExchange -- 3.2.4.SBEResultswithCoulombExchange -- 3.3.DynamicExcitonicFR -- 3.3.1.Introduction -- 3.3.2.Formulation -- 3.3.3.DynamicEX-FRSpectra -- 4.RelatedPhenomenaofDynamicFR -- 4.1.DynamicFRinDynamicWannier-StarkLadder -- 4.1.1.Introduction -- 4.1.2.R-MatrixFloquetTheory -- 4.1.3.PonderomotiveInteractions -- 4.1.4.ExcessDOS -- 4.2.DynamicFRinCoherentPhononGeneration -- 5.Conclusion -- Acknowledgments -- References -- Chapter10MAGNETOEXCITONBINDINGENERGYINPOLARCRYSTALS,QUANTUMWELLSANDGRAPHENEBILAYERS -- Abstract -- 1.Introduction -- 2.MagnetoexcitonsinPolarSemiconductors -- 2.1.BulkMagnetoexcitons -- 2.2.Quantum-wellMagnetoexcitons -- 3.MagnetoexcitonDispersioninGrapheneBilayersEmbeddedinaDielectric -- 3.1.RelativisticBethe-SalpeterEquation -- 4.Conclusion -- References -- Chapter11WANNIER-MOTT-FRENKELHYBRIDEXCITONINSEMICONDUCTOR-ORGANICSYSTEMSCONTAININGQUANTUMDOTS -- Abstract -- 1.Introduction -- 2.SemiconductorQuantumDotArrayinanOrganicMedium. 327 $a2.1.TotalHamiltonianoftheSystem -- 2.2.TheHybridExcitonState -- 2.3.NonlinearOpticalResponse -- 3.HybridExcitonStateinaQuantumDot-DendriteSystem -- 3.1.AQuantumDot-DendriteModel -- 3.2.EffectiveInteractionCoefficientsBetweenDendrimerGenerations -- 3.3.DiagramTechniquesforGreenFunctioninOrbitalRepresentation -- 3.4.TheQuantumDot-DendronLigand -- 4.HybridExcitonunderElectricandMagneticFields -- 5.Conclusion -- References -- Short Communication EXCITONS IN CDO PARABOLIC QUANTUM DOTS -- ABSTRACT -- 1. INTRODUCTION -- 2. THEORY -- 3. CONCLUSION -- REFERENCES -- INDEX. 330 $aExciton can be regarded as an elementary excitation of condensed matter which can transport energy without transporting net electric charge. This book presents research in the study of exciton quasiparticles, including exciton polariton dispersion in multinary compounds; exciton relaxation dynamics in colloidal core and core/shell CdSe nanorods; solitons and excitons in seismotectonic problems; exciton diffusion length measured by surface photovoltage method; and excitons in CdO parabolic quantum dots. 410 0$aPhysics Research and Technology 606 $aExciton theory 606 $aQuasiparticles (Physics) 615 0$aExciton theory. 615 0$aQuasiparticles (Physics) 676 $a530.4/16 701 $aBergin$b Randy M$01867803 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910973021103321 996 $aExciton quasiparticles$94475519 997 $aUNINA