Colored-noise thermostats à la carte
Journal of Chemical Theory and Computation, 2010•ACS Publications
Recently, we have shown how a colored-noise Langevin equation can be used in the
context of molecular dynamics as a tool to obtain dynamical trajectories whose properties
are tailored to display desired sampling features. In the present paper, after having reviewed
some analytical results for the stochastic differential equations forming the basis of our
approach, we describe in detail the implementation of the generalized Langevin equation
thermostat and the fitting procedure used to obtain optimal parameters. We also discuss the …
context of molecular dynamics as a tool to obtain dynamical trajectories whose properties
are tailored to display desired sampling features. In the present paper, after having reviewed
some analytical results for the stochastic differential equations forming the basis of our
approach, we describe in detail the implementation of the generalized Langevin equation
thermostat and the fitting procedure used to obtain optimal parameters. We also discuss the …
Recently, we have shown how a colored-noise Langevin equation can be used in the context of molecular dynamics as a tool to obtain dynamical trajectories whose properties are tailored to display desired sampling features. In the present paper, after having reviewed some analytical results for the stochastic differential equations forming the basis of our approach, we describe in detail the implementation of the generalized Langevin equation thermostat and the fitting procedure used to obtain optimal parameters. We also discuss the simulation of nuclear quantum effects and demonstrate that by carefully choosing parameters one can successfully model strongly anharmonic solids such as neon. For the reader’s convenience, a library of thermostat parameters and some demonstrative code can be downloaded from an online repository.
ACS Publications
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