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- Title
Dephasing in the semiclassical limit is system-dependent.
- Authors
Petitjean, C.; Jacquod, P.; Whitney, R. S.
- Abstract
Dephasing in open quantum chaotic systems has been investigated in the limit of large system sizes to the Fermi wavelength ratio, L/λF 〉 1. The weak localization correction g wl to the conductance for a quantum dot coupled to (i) an external closed dot and (ii) a dephasing voltage probe is calculated in the semiclassical approximation. In addition to the universal algebraic suppression g wl ∝ (1 + τD/τϕ)−1 with the dwell time τD through the cavity and the dephasing rate τ, we find an exponential suppression of weak localization by a factor of ∝ exp[− $$\tilde \tau $$ /τϕ], where $$\tilde \tau $$ is the system-dependent parameter. In the dephasing probe model, $$\tilde \tau $$ coincides with the Ehrenfest time, $$\tilde \tau $$ ∝ ln[ L/λF], for both perfectly and partially transparent dot-lead couplings. In contrast, when dephasing occurs due to the coupling to an external dot, $$\tilde \tau $$ ∝ ln[ L/ξ] depends on the correlation length ξ of the coupling potential instead of λF.
- Subjects
WAVELENGTHS; QUANTUM dots; PAIRING correlations (Nuclear physics); BALLISTICS
- Publication
JETP Letters, 2008, Vol 86, Issue 10, p647
- ISSN
0021-3640
- Publication type
Article
- DOI
10.1134/S0021364007220079