Chaos and Interactions:. from Nuclei to Quantum Dots
Abstract
Quantum dots are conducting devices in which electrons are confined to a submicron region. We focus on dots whose single-electron dynamics are chaotic. The observed conduction phenomena and statistical properties of such dots reflect the presence of one-body chaos, quantum interference and interactions. We discuss the statistical properties of these dots and compare them with the predictions of random-matrix theory, originally introduced to describe the statistical properties of compound nuclei.
- Publication:
-
Challenges of Nuclear Structure
- Pub Date:
- April 2002
- DOI:
- Bibcode:
- 2002cns..conf..541A