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Cooperative exciton states in molecular crystals
Joshua Jortner
*
, Stuart A. Rice
*
Corresponding author for this work
School of Chemistry
The University of Chicago
Université libre de Bruxelles
Research output
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Article
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peer-review
27
Scopus citations
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Keyphrases
Excited States
100%
Molecular Crystals
100%
Transition Probability
75%
Exchange Interaction
50%
Perturbation Theory
25%
Emission Processes
25%
Direct Detection
25%
Resonance Effect
25%
Excitation Bands
25%
Radiation Field
25%
One-component
25%
Electronic States
25%
Coulomb Interaction
25%
Selection Rules
25%
Infrared Spectra
25%
Tight-binding
25%
Electronic Excitation
25%
Electron Exchange
25%
Overtone
25%
Double Excitation
25%
Absorption Mechanism
25%
Higher-Order Transition
25%
Fermi Resonance
25%
Multipole Interaction
25%
Cooperative Excitation
25%
Approximate Selection
25%
Intermolecular Electrostatic Interactions
25%
Vibrational Exciton
25%
Engineering
Final State
100%
Initial State
100%
Radiation Field
100%
Coulomb Interaction
100%
Selection Rule
100%
Direct Detection
100%
Electronic Excitation
100%
Harmonics
100%
Electronic State
100%
Chemistry
Exciton
100%
Molecular Crystal
100%
Transition Probability
75%
Exchange Interaction
50%
Electronic State
25%
k·p perturbation theory
25%
Multipole
25%
Selection Rule
25%
Electronic Excitation
25%
Fermi Resonance
25%
Infrared Radiation
25%
Perturbation Theory
25%
Physics
Exciton
100%
Transition Probability
75%
Perturbation Theory
25%
Harmonics
25%
Electrostatics
25%
Multipole
25%
Radiation Distribution
25%
Infrared Radiation
25%
Material Science
Molecular Crystal
100%