Excitons, Photons, and Their Coupling
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Excitons, Photons, and Their Coupling
Interplay between Elementary and Composite Bosons
Combescot, Monique; Shiau, Shiue-Yuan
Oxford University Press
06/2026
736
Dura
Inglês
9780198926641
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
1: Highlights of the book
PART I - EXCITONS
2: Some ideas on excitons
3: Exciton phenomenology
4: Semiconductor microscopy
5: Wannier excitons
6: Exciton many-body effects
PART II - PHOTONS
7: Classical electrodynamics in vacuum
8: Semiclassical electrodynamics
9: Quantum electrodynamics
10: Maxwell equations in matter
PART III - EXCITON-PHOTON COUPLING
11: Photon couplings to excitons
12: Exciton-polaritons
13: Photon absorption
14: Photocreation of excitons
PART IV - APPENDICES
Appendix 1 - Second quantization formalism
Appendix 2 - Large finite volume
Appendix 3 - Arbitrary (+/-i) phase factors
Appendix 4 - On wave vector quantization
Appendix 5 - Kronecker symbol and delta function
Appendix 6 - Fourier Series and Integrals
Appendix 7 - Bloch theorem
Appendix 8 - Bloch electrons and Bloch functions
Appendix 9 - Coulomb interactions between electrons and holes
Appendix 10 - On dielectric constant for long/short-range Coulomb processes
Appendix 11 - Angular momenta: additions and matrix representations
Appendix 12 - From valence electrons to holes
Appendix 13 - Spin-orbit prefactor: Thomas derivation
Appendix 14 - The k ? p method
Appendix 15 - Physics of negative masses for Bloch electrons
Appendix 16 - Understanding the Kohn-Luttinger Hamiltonian
Appendix 17 - Coulomb scatterings involving heavy and light holes
Appendix 18 - Schroedinger equation in D dimension
Appendix 19 - Number of exciton levels in a finite crystal
Appendix 20 - Effect of hole mass difference on exciton degeneracy
Appendix 21 - Interband Coulomb interaction, electron-hole pair exchange, and longitudinal-transverse exciton splitting
Appendix 22 - Wannier electron states
Appendix 23 - One Wannier exciton through ladder diagrams
Appendix 24 - Pauli and Coulomb scatterings between Wannier excitons
Appendix 25 - Reasons for not using the E ? d coupling instead of A ? p
Appendix 26 - Rotating wave approximation versus quantizing the electromagnetic field
Appendix 27 - On polarization vectors
Appendix 28 - Broadened absorption line
Appendix 29 - More on exciton-polaritons
Appendix 30 - Two coupled bosons with finite lifetime
PART I - EXCITONS
2: Some ideas on excitons
3: Exciton phenomenology
4: Semiconductor microscopy
5: Wannier excitons
6: Exciton many-body effects
PART II - PHOTONS
7: Classical electrodynamics in vacuum
8: Semiclassical electrodynamics
9: Quantum electrodynamics
10: Maxwell equations in matter
PART III - EXCITON-PHOTON COUPLING
11: Photon couplings to excitons
12: Exciton-polaritons
13: Photon absorption
14: Photocreation of excitons
PART IV - APPENDICES
Appendix 1 - Second quantization formalism
Appendix 2 - Large finite volume
Appendix 3 - Arbitrary (+/-i) phase factors
Appendix 4 - On wave vector quantization
Appendix 5 - Kronecker symbol and delta function
Appendix 6 - Fourier Series and Integrals
Appendix 7 - Bloch theorem
Appendix 8 - Bloch electrons and Bloch functions
Appendix 9 - Coulomb interactions between electrons and holes
Appendix 10 - On dielectric constant for long/short-range Coulomb processes
Appendix 11 - Angular momenta: additions and matrix representations
Appendix 12 - From valence electrons to holes
Appendix 13 - Spin-orbit prefactor: Thomas derivation
Appendix 14 - The k ? p method
Appendix 15 - Physics of negative masses for Bloch electrons
Appendix 16 - Understanding the Kohn-Luttinger Hamiltonian
Appendix 17 - Coulomb scatterings involving heavy and light holes
Appendix 18 - Schroedinger equation in D dimension
Appendix 19 - Number of exciton levels in a finite crystal
Appendix 20 - Effect of hole mass difference on exciton degeneracy
Appendix 21 - Interband Coulomb interaction, electron-hole pair exchange, and longitudinal-transverse exciton splitting
Appendix 22 - Wannier electron states
Appendix 23 - One Wannier exciton through ladder diagrams
Appendix 24 - Pauli and Coulomb scatterings between Wannier excitons
Appendix 25 - Reasons for not using the E ? d coupling instead of A ? p
Appendix 26 - Rotating wave approximation versus quantizing the electromagnetic field
Appendix 27 - On polarization vectors
Appendix 28 - Broadened absorption line
Appendix 29 - More on exciton-polaritons
Appendix 30 - Two coupled bosons with finite lifetime
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
1: Highlights of the book
PART I - EXCITONS
2: Some ideas on excitons
3: Exciton phenomenology
4: Semiconductor microscopy
5: Wannier excitons
6: Exciton many-body effects
PART II - PHOTONS
7: Classical electrodynamics in vacuum
8: Semiclassical electrodynamics
9: Quantum electrodynamics
10: Maxwell equations in matter
PART III - EXCITON-PHOTON COUPLING
11: Photon couplings to excitons
12: Exciton-polaritons
13: Photon absorption
14: Photocreation of excitons
PART IV - APPENDICES
Appendix 1 - Second quantization formalism
Appendix 2 - Large finite volume
Appendix 3 - Arbitrary (+/-i) phase factors
Appendix 4 - On wave vector quantization
Appendix 5 - Kronecker symbol and delta function
Appendix 6 - Fourier Series and Integrals
Appendix 7 - Bloch theorem
Appendix 8 - Bloch electrons and Bloch functions
Appendix 9 - Coulomb interactions between electrons and holes
Appendix 10 - On dielectric constant for long/short-range Coulomb processes
Appendix 11 - Angular momenta: additions and matrix representations
Appendix 12 - From valence electrons to holes
Appendix 13 - Spin-orbit prefactor: Thomas derivation
Appendix 14 - The k ? p method
Appendix 15 - Physics of negative masses for Bloch electrons
Appendix 16 - Understanding the Kohn-Luttinger Hamiltonian
Appendix 17 - Coulomb scatterings involving heavy and light holes
Appendix 18 - Schroedinger equation in D dimension
Appendix 19 - Number of exciton levels in a finite crystal
Appendix 20 - Effect of hole mass difference on exciton degeneracy
Appendix 21 - Interband Coulomb interaction, electron-hole pair exchange, and longitudinal-transverse exciton splitting
Appendix 22 - Wannier electron states
Appendix 23 - One Wannier exciton through ladder diagrams
Appendix 24 - Pauli and Coulomb scatterings between Wannier excitons
Appendix 25 - Reasons for not using the E ? d coupling instead of A ? p
Appendix 26 - Rotating wave approximation versus quantizing the electromagnetic field
Appendix 27 - On polarization vectors
Appendix 28 - Broadened absorption line
Appendix 29 - More on exciton-polaritons
Appendix 30 - Two coupled bosons with finite lifetime
PART I - EXCITONS
2: Some ideas on excitons
3: Exciton phenomenology
4: Semiconductor microscopy
5: Wannier excitons
6: Exciton many-body effects
PART II - PHOTONS
7: Classical electrodynamics in vacuum
8: Semiclassical electrodynamics
9: Quantum electrodynamics
10: Maxwell equations in matter
PART III - EXCITON-PHOTON COUPLING
11: Photon couplings to excitons
12: Exciton-polaritons
13: Photon absorption
14: Photocreation of excitons
PART IV - APPENDICES
Appendix 1 - Second quantization formalism
Appendix 2 - Large finite volume
Appendix 3 - Arbitrary (+/-i) phase factors
Appendix 4 - On wave vector quantization
Appendix 5 - Kronecker symbol and delta function
Appendix 6 - Fourier Series and Integrals
Appendix 7 - Bloch theorem
Appendix 8 - Bloch electrons and Bloch functions
Appendix 9 - Coulomb interactions between electrons and holes
Appendix 10 - On dielectric constant for long/short-range Coulomb processes
Appendix 11 - Angular momenta: additions and matrix representations
Appendix 12 - From valence electrons to holes
Appendix 13 - Spin-orbit prefactor: Thomas derivation
Appendix 14 - The k ? p method
Appendix 15 - Physics of negative masses for Bloch electrons
Appendix 16 - Understanding the Kohn-Luttinger Hamiltonian
Appendix 17 - Coulomb scatterings involving heavy and light holes
Appendix 18 - Schroedinger equation in D dimension
Appendix 19 - Number of exciton levels in a finite crystal
Appendix 20 - Effect of hole mass difference on exciton degeneracy
Appendix 21 - Interband Coulomb interaction, electron-hole pair exchange, and longitudinal-transverse exciton splitting
Appendix 22 - Wannier electron states
Appendix 23 - One Wannier exciton through ladder diagrams
Appendix 24 - Pauli and Coulomb scatterings between Wannier excitons
Appendix 25 - Reasons for not using the E ? d coupling instead of A ? p
Appendix 26 - Rotating wave approximation versus quantizing the electromagnetic field
Appendix 27 - On polarization vectors
Appendix 28 - Broadened absorption line
Appendix 29 - More on exciton-polaritons
Appendix 30 - Two coupled bosons with finite lifetime
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
