The book provides a detailed and uniform treatment of the science and technology of light absorbing organic materials (used in nano-scale optical devices, LEDs, solar cells, flat screens, cell phones etc), which are increasingly investigated for use in mass market products.
The book provides a detailed and uniform treatment of the science and technology of light absorbing organic materials (used in nano-scale optical devices, LEDs, solar cells, flat screens, cell phones etc), which are increasingly investigated for use in mass market products.
Vladimir M. Agranovich, Research Professor, Chemistry Department, The University of Texas at Dallas
Inhaltsangabe
* 1: Introduction * 2: Frenkel excitonic states in the Heitler-London approximation * 3: The second-quantized theory of Frenkel excitons * 4: Polaritons: excitonic states taking account of retardation * 5: Dielectric theory of Frenkel excitons: local field effects * 6: Biphonons and Fermi resonance in vibrational spectra of crystals * 7: The dielectric tensor of crystals in the region of excitonic resonances * 8: Dielectric tensor of superlattices * 9: Excitations in organic multilayers * 10: Cavity polaritons in organic microcavities * 11: Charge transfer excitons * 12: Surface excitons * 13: Excitons in organic-based nanostructures * 14: Mobility of Frenkel excitons * 15: Statistics and collective properties of Frenkel excitons * Appendix A: Diagonalization of a Hamiltonian quadratic in the Bose-amplitudes * Appendix B: Calculations of polarization in inorganic quantum wells and in organics * Appendix C: Microscopic quantum-mechanical calculations of the energy transfer rate * Appendix D: Energy transfer in the planar geometry
* 1: Introduction * 2: Frenkel excitonic states in the Heitler-London approximation * 3: The second-quantized theory of Frenkel excitons * 4: Polaritons: excitonic states taking account of retardation * 5: Dielectric theory of Frenkel excitons: local field effects * 6: Biphonons and Fermi resonance in vibrational spectra of crystals * 7: The dielectric tensor of crystals in the region of excitonic resonances * 8: Dielectric tensor of superlattices * 9: Excitations in organic multilayers * 10: Cavity polaritons in organic microcavities * 11: Charge transfer excitons * 12: Surface excitons * 13: Excitons in organic-based nanostructures * 14: Mobility of Frenkel excitons * 15: Statistics and collective properties of Frenkel excitons * Appendix A: Diagonalization of a Hamiltonian quadratic in the Bose-amplitudes * Appendix B: Calculations of polarization in inorganic quantum wells and in organics * Appendix C: Microscopic quantum-mechanical calculations of the energy transfer rate * Appendix D: Energy transfer in the planar geometry
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