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Paper detail

Exact non-equilibrium solutions of the Boltzmann equation under a time-dependent external force

We construct a novel class of exact solutions to the Boltzmann equation, in both its classical and quantum formulation, for arbitrary collision laws. When the system is subjected to a specific external forcing, the precise form of which is worked out, non equilibrium damping-less solutions are admissible. They do not contradict the $H$-theorem, but are constructed from its requirements. Interestingly, these solutions hold for time-dependent confinement. We exploit them, in a reverse-engineering perspective, to work out a protocol that shortcuts any adiabatic transformation between two equilibrium states in an arbitrarily short time-span, for an interacting system. Particle simulations of the direct Monte Carlo type fully corroborate the analytical predictions.

preprint2014arXivOpen access
D. Guéry-OdelinJ. G. MugaM. J. Ruiz-MonteroE. Trizac
cond-mat.stat-mechcond-mat.quant-gas
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D. Guéry-OdelinJ. G. MugaM. J. Ruiz-MonteroE. Trizac

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