Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2006-06-26
Phys. Rev. B 74, 195326 (2006)
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
7 Pages,5 Figures (all figures in Color). Submitted to Phys. Rev. B. Updated with Referee/Editor comments
Scientific paper
10.1103/PhysRevB.74.195326
The mathematical equivalence of the time-independent Schrodinger equation and the Helmholtz equation is exploited to provide a novel means of studying universal conductance fluctuations in ballistic chaotic mesoscopic systems using a two-dimensional microwave-cavity. The classically chaotic ray trajectories within a suitably-shaped microwave cavity play a role analogous to that of the chaotic dynamics of non-interacting electron transport through a ballistic quantum dot in the absence of thermal fluctuations. The microwave cavity is coupled through two single-mode ports and the effect of non-ideal coupling between the ports and cavity is removed by a previously developed method based on the measured radiation impedance matrix. The Landauer-Buttiker formalism is applied to obtain the conductance of a corresponding mesoscopic quantum-dot device. We find good agreement for the probability density functions (PDFs) of the experimentally derived surrogate conductance, as well as its mean and variance, with the theoretical predictions of Brouwer and Beenakker. We also observe a linear relation between the quantum dephasing parameter and the cavity ohmic loss parameter.
Anlage Steven M.
Antonsen Thomas M. Jr.
Hart James
Hemmady Sameer
Ott Edward
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