- Title Pages
- Preface
- 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
- [UNTITLED]
- REFERENCES
- TABLES
- FIGURES
- Index
Frenkel Excitonic States in The Heitler-London Approximation
Frenkel Excitonic States in The Heitler-London Approximation
- Chapter:
- (p.10) 2 FRENKEL EXCITONIC STATES IN THE HEITLER-LONDON APPROXIMATION
- Source:
- Excitations in Organic Solids
- Author(s):
Vladimir M. Agranovich
- Publisher:
- Oxford University Press
This chapter discusses Frenkel excitonic states in Heitler-London approximation. The Coulomb and mechanical excitons in molecular crystals are introduced using the crystal Hamiltonian. The excitons symmetry properties are considered via group-theoretical methods. Applications to crystals of naphthalene type are given.
Keywords: Frenkel, Coulomb and mechanical excitons, Davydov splitting, naphtalene, group theory
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- Title Pages
- Preface
- 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
- [UNTITLED]
- REFERENCES
- TABLES
- FIGURES
- Index