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Characterizing phonon dynamics using stochastic sampling
K. Kunal, N. R. Aluru
Mechanical Science and Engineering
Beckman Institute for Advanced Science and Technology
National Center for Supercomputing Applications (NCSA)
Bioengineering
Micro and Nanotechnology Lab
Industrial and Enterprise Systems Engineering
Electrical and Computer Engineering
Materials Research Lab
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peer-review
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Keyphrases
Autocorrelation
100%
Phonon Dynamics
100%
Stochastic Sampling
100%
Correlation Function
66%
Molecular Dynamics
66%
Phonon Relaxation Time
66%
Equilibrium Configuration
66%
Relaxation Time
33%
Sampling Approach
33%
Phonon Energy
33%
Mode Energy
33%
Simulation Time
33%
Phonon Lifetime
33%
Taylor Expansion
33%
Truncated Taylor Series
33%
Approximate Form
33%
Function Approximation
33%
Expansion Terms
33%
Stochastic Sampling Method
33%
Engineering
Relaxation Time
100%
Autocorrelation Function
100%
Energy Engineering
66%
Equilibrium Configuration
66%
Good Agreement
33%
Simulation Time
33%
Taylor Series Expansion
33%
Mode Energy
33%
Approximate Function
33%
Mathematics
relaxation time τ
100%
Stochastics
100%
Autocorrelation Function
100%
Approximates
66%
Good Agreement
33%
Taylor Series Expansion
33%