SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION THEORY, AND CHAOTIC QUANTUM DOTS
Publication
, Journal Article
Baranger, HU; Mello, PA
February 20, 1995
We propose an information-theoretic statistical model to describe the universal features of those chaotic scattering processes characterized by a prompt and an equilibrated component. The model, introduced in the past in nuclear physics, incorporates the average value of the scattering matrix to describe the prompt processes, and satisfies the requirements of flux conservation, causality, and ergodicity. We show that the model successfully describes electronic transport through chaotic quantum dots. The predicted distribution of the conductance may show a remarkable two-peak structure.
Duke Scholars
Publication Date
February 20, 1995
Citation
APA
Chicago
ICMJE
MLA
NLM
Baranger, H. U., & Mello, P. A. (1995). SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION
THEORY, AND CHAOTIC QUANTUM DOTS.
Baranger, H. U., and P. A. Mello. “SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION
THEORY, AND CHAOTIC QUANTUM DOTS,” February 20, 1995.
Baranger HU, Mello PA. SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION
THEORY, AND CHAOTIC QUANTUM DOTS. 1995 Feb 20;
Baranger, H. U., and P. A. Mello. SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION
THEORY, AND CHAOTIC QUANTUM DOTS. Feb. 1995.
Baranger HU, Mello PA. SCATTERING INVOLVING PROMPT AND EQUILIBRATED COMPONENTS, INFORMATION
THEORY, AND CHAOTIC QUANTUM DOTS. 1995 Feb 20;
Publication Date
February 20, 1995