Electromechanical phenomena in normal and superconducting nanostructures   based on a movable quantum dot

O.M. Bahrova

arXiv:2307.02584·cond-mat.mes-hall·July 7, 2023

Electromechanical phenomena in normal and superconducting nanostructures based on a movable quantum dot

O.M. Bahrova

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Open Access

TL;DR

This paper explores electromechanical coupling phenomena in mesoscopic systems with movable quantum dots, revealing new fundamental effects in normal and superconducting nanostructures.

Contribution

It introduces novel fundamental phenomena arising from electromechanical interactions in mesoscopic quantum dot systems, expanding understanding of nanoscale electromechanics.

Findings

01

Identification of new electromechanical effects in quantum dot systems

02

Differences observed between normal and superconducting nanostructures

03

Potential implications for nanoscale device design

Abstract

The dissertation is devoted to the study of new fundamental phenomena which emerge due to electromechanical coupling in mesoscopic systems based on movable quantum dot.

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Taxonomy

TopicsAdvanced Research in Systems and Signal Processing