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КОНДЕНСИРОВАННЫЕ СРЕДЫ
Dephasing in the semiclassical limit is system–dependent
C. Petitjeana,
P. Jacquodb,
R. S. Whitneyc a Département de Physique Théorique, Université de Genève
b Physics Department, University of Arizona, Tucson, AZ 85721, USA
c Institut Laue-Langevin, 38042 Grenoble, France
Аннотация:
We investigate dephasing in open quantum chaotic systems in the limit of large system size to Fermi wavelength ratio,
$L/\lambda_\mathrm F\gg1$. We semiclassically calculate the weak localization correction
$g^\mathrm{wl}$ to the conductance for a quantum dot coupled to (i) an external closed dot and (ii) a dephasing voltage probe. In addition to the universal algebraic suppression $g^\mathrm{wl}\propto (1+\tau_\mathrm{ D}/\tau_\phi)^{-1}$ with the dwell time
$\tau_\mathrm D$ through the cavity and the dephasing rate
$\tau_\phi^{-1}$, we find an exponential suppression of weak localization by a factor
$\propto\exp[-\tilde\tau/\tau_\phi]$, with a system-dependent
$\tilde\tau$. In the dephasing probe model,
$\tilde\tau$ coincides with the Ehrenfest time,
$\tilde\tau\propto\ln [L/\lambda_\mathrm F]$, for both perfectly and partially transparent dot-lead couplings. In contrast, when dephasing occurs due to the coupling to an external dot,
$\tilde\tau\propto\ln [L/\xi]$ depends on the correlation length
$\xi$ of the coupling potential instead of
$\lambda_\mathrm F$.
PACS:
03.65.Yz,
05.45.Mt,
73.23.-b,
74.40.+k Поступила в редакцию: 08.10.2007
Язык публикации: английский