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Theory of vibrational relaxation in isolated molecules
Kenneth G. Kay
Kansas State University
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
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Dive into the research topics of 'Theory of vibrational relaxation in isolated molecules'. Together they form a unique fingerprint.
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Keyphrases
Analytical Expression
50%
Asymptotic Behavior
50%
Generalized Master Equation
50%
Heave
50%
Interaction Couple
50%
Intramolecular Dynamics
50%
Intramolecular Energy Transfer
50%
Isolated Molecules
100%
Many Degrees of Freedom
50%
Master Equation
50%
Non-reactivity
50%
Occupation Probability
100%
Pauli
50%
Quantum Mechanical Theory
50%
Statistical Equilibrium
50%
Vibrational Relaxation
100%
Weak Coupling
50%
Zero Order
50%
Engineering
Convergent
50%
Degree of Freedom
50%
Energy Engineering
50%
Ergodicity
50%
Master Equation
100%
Mechanical Theory
50%
Vibrational Relaxation
100%
Chemistry
Intramolecular Dynamics
50%
Intramolecular Energy Transfer
50%
Isolated Molecule
100%
Master Equation
100%
Vibrational Relaxation
100%
Mathematics
Asymptotic Behavior
33%
Degree of Freedom
33%
Ergodicity
33%
Master Equation
66%
Probability Theory
100%
Related Function
33%
Statistical Equilibrium
33%
Physics
Degree of Freedom
100%
Energy Transfer
100%
Molecular Relaxation
100%