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Issue 26, 2007
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Wigner function approach to the quantum Brownian motion of a particle in a potential

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Abstract

Recent progress in our understanding of quantum effects on the Brownian motion in an external potential is reviewed. This problem is ubiquitous in physics and chemistry, particularly in the context of decay of metastable states, for example, the reversal of the magnetization of a single domain ferromagnetic particle, kinetics of a superconducting tunnelling junction, etc. Emphasis is laid on the establishment of master equations describing the diffusion process in phase space analogous to the classical Fokker–Planck equation. In particular, it is shown how Wigner’s [E. P. Wigner, Phys. Rev., 1932, 40, 749] method of obtaining quantum corrections to the classical equilibrium Maxwell–Boltzmann distribution may be extended to the dissipative non-equilibrium dynamics governing the quantum Brownian motion in an external potential V(x), yielding a master equation for the Wigner distribution function W(x,p,t) in phase space (x,p). The explicit form of the master equation so obtained contains quantum correction terms up to o(4) and in the classical limit, → 0, reduces to the classical Klein–Kramers equation. For a quantum oscillator, the method yields an evolution equation coinciding in all respects with that of Agarwal [G. S. Agarwal, Phys. Rev. A, 1971, 4, 739]. In the high dissipation limit, the master equation reduces to a semi-classical Smoluchowski equation describing non-inertial quantum diffusion in configuration space. The Wigner function formulation of quantum Brownian motion is further illustrated by finding quantum corrections to the Kramers escape rate, which, in appropriate limits, reduce to those yielded via quantum generalizations of reaction rate theory.

Graphical abstract: Wigner function approach to the quantum Brownian motion of a particle in a potential

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Publication details

The article was received on 05 Oct 2006, accepted on 29 Nov 2006 and first published on 27 Mar 2007


Article type: Invited Article
DOI: 10.1039/B614554J
Citation: Phys. Chem. Chem. Phys., 2007,9, 3361-3382
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    Wigner function approach to the quantum Brownian motion of a particle in a potential

    W. T. Coffey, Yu. P. Kalmykov, S. V. Titov and B. P. Mulligan, Phys. Chem. Chem. Phys., 2007, 9, 3361
    DOI: 10.1039/B614554J

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