English

Classical Dynamics of Harmonically Trapped Interacting Particles

Statistical Mechanics 2018-08-01 v1 Quantum Gases Chaotic Dynamics

Abstract

Motivated by current interest in the dynamics of trapped quantum gases, we study the microcanonical dynamics of a trapped one-dimensional gas of classical particles interacting via a finite-range repulsive force of tunable strength. We examine two questions which have been of interest in quantum dynamics: (1) the breathing mode (size oscillation) dynamics of the trapped gas and the dependence of the breathing frequency on the interaction strength, and (2) the long-time relaxation and possible thermalization of the finite isolated gas. We show that the breathing mode frequency has non-monotonic dependence on the magnitude of the mutual repulsion, decreasing for small interactions and increasing for larger interactions. We explain these dependences in terms of slowing-down or speeding-up effects of two-body collision processes. We find that the gas thermalizes within a reasonable finite timescale in the sense of single-particle energies acquiring a Boltzmann distribution, only when the interaction strength is large compared to the energy per particle.

Keywords

Cite

@article{arxiv.1712.08025,
  title  = {Classical Dynamics of Harmonically Trapped Interacting Particles},
  author = {Zhiyu Dong and R. Moessner and Masudul Haque},
  journal= {arXiv preprint arXiv:1712.08025},
  year   = {2018}
}

Comments

19 pages, 12 figures

R2 v1 2026-06-22T23:26:08.318Z