Quantum Chaos in Quantum Wells

A.Douglas Stone; Agam; Ando; Bardeen; Berry; Blaschke; Bohigas; Bohigas; Chirikov; Du; Du; E.E. Narimanov; Fishman; Fromhold; Fromhold; Fromhold; Gutzwiller; Heller; Kaplan; Miller; Monteiro; Monteiro; Monteiro; Muller; Narimanov; Narimanov; Narimanov; Ozorio de Almeida; Payne; Saraga; Shepelyansky; Wilkinson; Wintgen

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Quantum Chaos in Quantum Wells

Authors: A.Douglas Stone
Agam
Ando
Bardeen
Berry
Blaschke
Bohigas
Bohigas
Chirikov
Du
Du
E.E. Narimanov
Fishman
Fromhold
Fromhold
Fromhold
Gutzwiller
Heller
Kaplan
Miller
Monteiro
Monteiro
Monteiro
Muller
Narimanov
Narimanov
Narimanov
Ozorio de Almeida
Payne
Saraga
Shepelyansky
Wilkinson
Wintgen
Publication date: 14 August 1998
Publisher: 'Elsevier BV'
Doi

Abstract

We develop a quantitative semiclassical theory for the resosnant tunneling through a quantum well in a tilted magnetic field. It is shown, that in the leading semiclassical approximation the tunneling current depends only on periodic orbits within the quantum well. Further corrections (due to e.g. "ghost" effect) can be expressed in terms of closed, but non-periodic orbits, started at the "injection point". The results of the semiclassical theory are shown to be in good agreement with both the experimental data and numerical calculations.Comment: 25 pages, 15 figures, accepted for publication in Physica

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