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Non-Markovian theory of activated rate processes. I. Formalism
Benny Carmeli
*
,
Abraham Nitzan
*
Corresponding author for this work
Tel Aviv University
Northwestern University
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peer-review
101
Scopus citations
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Keyphrases
Process Rate
100%
Friction
100%
Non-Markovian
100%
Heat Bath
100%
Generalized Langevin Equation
100%
Low Friction
50%
Diffusion Term
50%
Energy Accumulation
50%
Fourier Coefficients
50%
Random Noise
50%
Fourier Transform
50%
Potential Well
50%
Morse Potential
50%
Memory Kernel
50%
Energy Exchange
50%
Diffusion Equation
50%
Correlation Time
50%
Escape Rate
50%
Energy Relaxation
50%
Drift Term
50%
Stochastic Trajectory
50%
Friction Limit
50%
Stochastic Equations
50%
Trajectory Basis
50%
Non-Markovian Effect
50%
Smoluchowski Diffusion Equation
50%
Frequency-dependent Friction
50%
Action Variable
50%
Mathematics
Explicit Expression
100%
Diffusion Equation
100%
Langevin Equation
100%
Heat Bath
100%
Stochastics
50%
Fourier Transform
50%
Stochastic Equation
50%
Energy Exchange
50%
Deterministic Trajectory
50%
Random Noise
50%
Fourier Coefficient
50%
Engineering
Explicit Expression
100%
Diffusion Equation
100%
Fourier Coefficient
50%
Dependent Friction
50%
Correlation Time
50%
Diffusion Term
50%
Friction Limit
50%
Fourier Transform
50%
Physics
Langevin Equation
100%
Energy Transfer
50%
Random Noise
50%
Morse Potential
50%