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Effects of vibrational relaxation on molecular electronic transitions
Abraham Nitzan
*
,
Joshua Jortner
*
Corresponding author for this work
School of Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
36
Scopus citations
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Dive into the research topics of 'Effects of vibrational relaxation on molecular electronic transitions'. Together they form a unique fingerprint.
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Keyphrases
Electronic Transitions
100%
Vibrational Relaxation
100%
Molecular Electronics
100%
Phonons
25%
Decay Rate
25%
Non-radiative Decay
25%
Electronic Relaxation
25%
Excited Electronic States
25%
Intramolecular Coupling
25%
Molecular Mode
12%
Equations of Motion
12%
Specific Model
12%
Non-radial
12%
Physical Model
12%
Molecular Systems
12%
Exponential Function
12%
Functional Form
12%
Electronic Level
12%
Time Correlation Functions
12%
Coupling Terms
12%
Relaxation Process
12%
Linear Coupling
12%
Large Molecules
12%
Infinite Order
12%
Franck-Condon
12%
Coupling Operator
12%
Wigner
12%
Interaction picture
12%
Shift Operator
12%
Low Temperature Limit
12%
Nonadiabatic Coupling
12%
Vibron
12%
Decay Probability
12%
Nuclear Operators
12%
Vibronic Levels
12%
Second Quantization Formalism
12%
Phonon Decay
12%
Molecular Hamiltonian
12%
Generalized Interactions
12%
Chemistry
Electronic Transition
100%
Vibrational Relaxation
100%
Molecular Electronics
100%
electronics
62%
Phonon
37%
Excited Electronic State
25%
Models (Physical)
12%
Relaxation
12%
Time Correlation Function
12%
Vibron
12%
Vibronic Level
12%