Florian Theil scite author profile

We present a dynamical technique for sampling the canonical measure in molecular dynamics. The method controls temperature by use of a device similar to that of Nosé dynamics, but adds random noise to improve ergodicity. In contrast to Langevin dynamics, where noise is added directly to each physical degree of freedom, our method relies on an indirect coupling to a single Brownian particle. For a model with harmonic potentials, we show under a mild non-resonance assumption that the new dynamics generates the canonical distribution. In spite of its stochastic nature, it appears to have a relatively weak effect on the physical dynamics, as measured by perturbation of temporal autocorrelation functions. The kinetic energy is tightly controlled even in the early stages of a simulation.

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Justification of the Cauchy–Born Approximation of Elastodynamics

Ortner

Theil

2012

Arch Rational Mech Anal

113

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Florian Theil

On rate-independent hysteresis models

A Variational Formulation of¶Rate-Independent Phase Transformations¶Using an Extremum Principle

A Gentle Stochastic Thermostat for Molecular Dynamics

Justification of the Cauchy–Born Approximation of Elastodynamics

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