Phase-coherent dynamics of quantum devices with local interactions

Michele Filippone; Arthur Marguerite; Karyn Le Hur; Gwendal Fève; Christophe Mora

doi:10.3390/E22080847

Phase-coherent dynamics of quantum devices with local interactions

Michele Filippone
, Arthur Marguerite
, Karyn Le Hur
, Gwendal Fève
, Christophe Mora

University of Geneva
Weizmann Institute of Science Israel
PSL research University & IPSL
Laboratoire de Probabilités et Modèles Aléatoires

Research output: Contribution to journal › Review article › peer-review

Abstract

This review illustrates how Local Fermi Liquid (LFL) theories describe the strongly correlated and coherent low-energy dynamics of quantum dot devices. This approach consists in an effective elastic scattering theory, accounting exactly for strong correlations. Here, we focus on the mesoscopic capacitor and recent experiments achieving a Coulomb-induced quantum state transfer. Extending to out-of-equilibrium regimes, aimed at triggered single electron emission, we illustrate how inelastic effects become crucial, requiring approaches beyond LFLs, shedding new light on past experimental data by showing clear interaction effects in the dynamics of mesoscopic capacitors.

Original language	English
Article number	847
Journal	Entropy
Volume	22
Issue number	8
DOIs	https://doi.org/10.3390/E22080847
Publication status	Published - 1 Aug 2020

Keywords

Coulomb blockade
Dynamics of strongly correlated quantum systems
Kondo effect
Local fermi liquids
Mesoscopic physics
Quantum capacitor
Quantum dots
Quantum transport

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10.3390/E22080847

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title = "Phase-coherent dynamics of quantum devices with local interactions",

abstract = "This review illustrates how Local Fermi Liquid (LFL) theories describe the strongly correlated and coherent low-energy dynamics of quantum dot devices. This approach consists in an effective elastic scattering theory, accounting exactly for strong correlations. Here, we focus on the mesoscopic capacitor and recent experiments achieving a Coulomb-induced quantum state transfer. Extending to out-of-equilibrium regimes, aimed at triggered single electron emission, we illustrate how inelastic effects become crucial, requiring approaches beyond LFLs, shedding new light on past experimental data by showing clear interaction effects in the dynamics of mesoscopic capacitors.",

keywords = "Coulomb blockade, Dynamics of strongly correlated quantum systems, Kondo effect, Local fermi liquids, Mesoscopic physics, Quantum capacitor, Quantum dots, Quantum transport",

author = "Michele Filippone and Arthur Marguerite and Hur, \{Karyn Le\} and Gwendal F{\`e}ve and Christophe Mora",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors.",

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doi = "10.3390/E22080847",

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AU - Filippone, Michele

AU - Marguerite, Arthur

AU - Hur, Karyn Le

AU - Fève, Gwendal

AU - Mora, Christophe

PY - 2020/8/1

Y1 - 2020/8/1

N2 - This review illustrates how Local Fermi Liquid (LFL) theories describe the strongly correlated and coherent low-energy dynamics of quantum dot devices. This approach consists in an effective elastic scattering theory, accounting exactly for strong correlations. Here, we focus on the mesoscopic capacitor and recent experiments achieving a Coulomb-induced quantum state transfer. Extending to out-of-equilibrium regimes, aimed at triggered single electron emission, we illustrate how inelastic effects become crucial, requiring approaches beyond LFLs, shedding new light on past experimental data by showing clear interaction effects in the dynamics of mesoscopic capacitors.

AB - This review illustrates how Local Fermi Liquid (LFL) theories describe the strongly correlated and coherent low-energy dynamics of quantum dot devices. This approach consists in an effective elastic scattering theory, accounting exactly for strong correlations. Here, we focus on the mesoscopic capacitor and recent experiments achieving a Coulomb-induced quantum state transfer. Extending to out-of-equilibrium regimes, aimed at triggered single electron emission, we illustrate how inelastic effects become crucial, requiring approaches beyond LFLs, shedding new light on past experimental data by showing clear interaction effects in the dynamics of mesoscopic capacitors.

KW - Coulomb blockade

KW - Dynamics of strongly correlated quantum systems

KW - Kondo effect

KW - Local fermi liquids

KW - Mesoscopic physics

KW - Quantum capacitor

KW - Quantum dots

KW - Quantum transport

UR - https://www.scopus.com/pages/publications/85090399845

U2 - 10.3390/E22080847

DO - 10.3390/E22080847

M3 - Review article

AN - SCOPUS:85090399845

SN - 1099-4300

VL - 22

JO - Entropy

JF - Entropy

IS - 8

M1 - 847

ER -

Phase-coherent dynamics of quantum devices with local interactions

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Keywords

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