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Extremely quick thermalization in a macroscopic quantum system for a typical nonequilibrium subspace

The fact that macroscopic systems approach thermal equilibrium may seem puzzling, for example, because it may seem to conflict with the time-reversibility of the microscopic dynamics. We here prove that in a macroscopic quantum system for a typical choice of "nonequilibrium subspace", any initial state indeed thermalizes, and in fact does so very quickly, on the order of the Boltzmann time $τ_\mathrm{B}:=h/(k_\mathrm{B}T)$. Therefore what needs to be explained is, not that macroscopic systems approach equilibrium, but that they do so slowly.

preprint2014arXivOpen access
Sheldon GoldsteinTakashi HaraHal Tasaki
cond-mat.stat-mechmath-phmath.MPquant-ph
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Sheldon GoldsteinTakashi HaraHal Tasaki

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