Electronic transport through ballistic chaotic cavities: an information theoretic approach
Publication
, Journal Article
Mello, PA; Baranger, HU
1995
The statistical properties of the electronic conductance through a ballistic quantum dot are studied by means of an information-theoretic statistical model for the scattering matrix. The model, introduced in the past in the context of nuclear physics, describes the problem in terms of a prompt and an equilibrated component: it incorporates the average value of the scattering matrix to describe the prompt processes and satisfies the requirements of flux conservation, causality and ergodicity. The model describes well the results arising from the numerical solution of the Schrödinger equation for two-dimensional quantum cavities.
Duke Scholars
Publication Date
1995
Volume
220
Issue
1
Start / End Page
15 / 23
Citation
APA
Chicago
ICMJE
MLA
NLM
Mello, P. A., & Baranger, H. U. (1995). Electronic transport through ballistic chaotic cavities: an information theoretic approach, 220(1), 15–23.
Mello, Pier A., and Harold U. Baranger. “Electronic transport through ballistic chaotic cavities: an information theoretic approach” 220, no. 1 (1995): 15–23.
Mello PA, Baranger HU. Electronic transport through ballistic chaotic cavities: an information theoretic approach. 1995;220(1):15–23.
Mello, Pier A., and Harold U. Baranger. Electronic transport through ballistic chaotic cavities: an information theoretic approach. Vol. 220, no. 1, 1995, pp. 15–23.
Mello PA, Baranger HU. Electronic transport through ballistic chaotic cavities: an information theoretic approach. 1995;220(1):15–23.
Publication Date
1995
Volume
220
Issue
1
Start / End Page
15 / 23