论文

2015
Jarzynski C, Quan HT, Rahav S. Quantum-Classical Correspondence Principle for Work Distributions. Phys. Rev. X [Internet]. 2015;5:031038. 访问链接Abstract
For closed quantum systems driven away from equilibrium, work is often defined in terms of projective measurements of initial and final energies. This definition leads to statistical distributions of work that satisfy nonequilibrium work and fluctuation relations. While this two-point measurement definition of quantum work can be justified heuristically by appeal to the first law of thermodynamics, its relationship to the classical definition of work has not been carefully examined. In this paper, we employ semiclassical methods, combined with numerical simulations of a driven quartic oscillator, to study the correspondence between classical and quantal definitions of work in systems with 1 degree of freedom. We find that a semiclassical work distribution, built from classical trajectories that connect the initial and final energies, provides an excellent approximation to the quantum work distribution when the trajectories are assigned suitable phases and are allowed to interfere. Neglecting the interferences between trajectories reduces the distribution to that of the corresponding classical process. Hence, in the semiclassical limit, the quantum work distribution converges to the classical distribution, decorated by a quantum interference pattern. We also derive the form of the quantum work distribution at the boundary between classically allowed and forbidden regions, where this distribution tunnels into the forbidden region. Our results clarify how the correspondence principle applies in the context of quantum and classical work distributions and contribute to the understanding of work and nonequilibrium work relations in the quantum regime.
2013
Mandal D, Quan HT, Jarzynski C. Maxwell's refrigerator: An exactly solvable model. 2013;(3).
2012
Li T, Gong Z-X, Yin Z-Q, Quan HT, Yin X, Zhang P, Duan L-M, Zhang X. Space-time crystals of trapped ions. 2012;(16).
Cai CY, Ai Q, Quan HT, Sun CP. Sensitive chemical compass assisted by quantum criticality. 2012;(2).
Quan HT, Jarzynski C. Validity of nonequilibrium work relations for the rapidly expanding quantum piston. 2012;(3).

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