Weak-Localization in Chaotic Versus Non-Chaotic Cavities: A Striking
  Difference in the Line Shape

A. Davidson; A. M. Chang; C. Kurdak; C.H. Lewenkopf; C.M. Marcus; C.M. Marcus; C.M. Marcus; C.M. Marcus; D. Weiss; E. Doron; E. Ott; H. U. Baranger; H. van Houten; H.U. Baranger; H.U. Baranger; H.U. Baranger; H.U. Baranger; H.U. Baranger; K. W. West; L. N. Pfeiffer; M.C. Gutzwiller; M.J. Berry; M.W. Keller; R. Blümel; R. Blümel; R.A. Jalabert; R.A. Jalabert; R.B.S. Oakeshott; U. Smilansky; W.A. Lin; Y.-C. Lai

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Weak-Localization in Chaotic Versus Non-Chaotic Cavities: A Striking Difference in the Line Shape

Authors: A. Davidson
A. M. Chang
C. Kurdak
C.H. Lewenkopf
C.M. Marcus
C.M. Marcus
C.M. Marcus
C.M. Marcus
D. Weiss
E. Doron
E. Ott
H. U. Baranger
H. van Houten
H.U. Baranger
H.U. Baranger
H.U. Baranger
H.U. Baranger
H.U. Baranger
K. W. West
L. N. Pfeiffer
M.C. Gutzwiller
M.J. Berry
M.W. Keller
R. Blümel
R. Blümel
R.A. Jalabert
R.A. Jalabert
R.B.S. Oakeshott
U. Smilansky
W.A. Lin
Y.-C. Lai
Publication date: 26 May 1994
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report experimental evidence that chaotic and non-chaotic scattering through ballistic cavities display distinct signatures in quantum transport. In the case of non-chaotic cavities, we observe a linear decrease in the average resistance with magnetic field which contrasts markedly with a Lorentzian behavior for a chaotic cavity. This difference in line-shape of the weak-localization peak is related to the differing distribution of areas enclosed by electron trajectories. In addition, periodic oscillations are observed which are probably associated with the Aharonov-Bohm effect through a periodic orbit within the cavities.Comment: 4 pages revtex + 4 figures on request; amc.hub.94.

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