Problem of a quantum particle in a random potential on a line revisited

A.V. Vagov; Agacy; Anderson; Aronov; Berezinskii; Bonch-Bruevich; Bullough; Edwards; Efetov; Eggarter; Esfarajani; Faddeev; Flaschka; Frisch; Gardner; Gol'dshtein; Goldstein; Halperin; Halperin; Halperin; Hirota; Iida; Kane; Karpman; Lax; Lifshitz; Luttinger; Mehta; Mieghem; Newell; O.K. Vorov; Parisi; Polyakov; Prange; Sasaki; Shalaev; Shalaev; Simons; Stoneham; Thouless; Wahlquist; Wegner; Zakharov; Zakharov; Ziegler; Ziman; Zirnbauer; Zittarz

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Problem of a quantum particle in a random potential on a line revisited

Authors: A.V. Vagov
Agacy
Anderson
Aronov
Berezinskii
Bonch-Bruevich
Bullough
Edwards
Efetov
Eggarter
Esfarajani
Faddeev
Flaschka
Frisch
Gardner
Gol'dshtein
Goldstein
Halperin
Halperin
Halperin
Hirota
Iida
Kane
Karpman
Lax
Lifshitz
Luttinger
Mehta
Mieghem
Newell
O.K. Vorov
Parisi
Polyakov
Prange
Sasaki
Shalaev
Shalaev
Simons
Stoneham
Thouless
Wahlquist
Wegner
Zakharov
Zakharov
Ziegler
Ziman
Zirnbauer
Zittarz
Publication date: 5 October 1994
Publisher: 'Elsevier BV'
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Abstract

The density of states for a particle moving in a random potential with a Gaussian correlator is calculated exactly using the functional integral technique. It is achieved by expressing the functional degrees of freedom in terms of the spectral variables and the parameters of isospectral transformations of the potential. These transformations are given explicitly by the flows of the Korteweg-de Vries hierarchy which deform the potential leaving all its spectral properties invariant. Making use of conservation laws reduces the initial Feynman integral to a combination of quadratures which can be readily calculated. Different formulations of the problem are analyzed.Comment: 11 pages, RevTex, preprint ANU-RSPhySE-20994 (comment added

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