Sampling the thermal Wigner density via a generalized Langevin dynamics - Sorbonne Université
Article Dans Une Revue The Journal of Chemical Physics Année : 2019

Sampling the thermal Wigner density via a generalized Langevin dynamics

Résumé

The Wigner thermal density is a function of considerable interest in the area of approximate (linearized or semiclassical) quantum dynamics where it is employed to generate initial conditions for the propagation of appropriate sets of classical trajectories. In this paper, we propose an original approach to compute the Wigner density, based on a generalized Langevin equation. The stochastic dynamics is non-trivial in that it contains a coordinate-dependent friction coefficient and a generalized force that couples momenta and coordinates. These quantities are, in general, not known analytically and have to be estimated via auxiliary calculations. The performance of the new sampling scheme is tested on standard model systems with highly non classical features such as relevant zero point energy effects, correlation between momenta and coordinates, and negative parts of the Wigner density. In its current brute force implementation, the algorithm, whose convergence can be systematically checked, is accurate and has only limited overhead compared to schemes with similar characteristics. We briefly discuss potential ways to further improve its numerical efficiency.
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Dates et versions

hal-02298223 , version 1 (26-09-2019)

Identifiants

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Thomas Plé, Simon Huppert, Fabio Finocchi, Philippe Depondt, Sara Bonella. Sampling the thermal Wigner density via a generalized Langevin dynamics. The Journal of Chemical Physics, 2019, 151 (11), pp.114114. ⟨10.1063/1.5099246⟩. ⟨hal-02298223⟩
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