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Autori principali: Burset, Pablo, Roussel, Benjamin, Moskalets, Michael, Flindt, Christian
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.19436
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author Burset, Pablo
Roussel, Benjamin
Moskalets, Michael
Flindt, Christian
author_facet Burset, Pablo
Roussel, Benjamin
Moskalets, Michael
Flindt, Christian
contents We present a comprehensive Floquet-Nambu theory to describe the time-dependent quantum transport in mesoscopic circuits involving superconductors. The central object of our framework is the first-order correlation function, which accounts for the excitations that are generated by a time-dependent voltage and their coherent scattering off the interface with a superconductor. We analyze the time-dependent current generated by periodic voltage pulses and how it depends on the excitation energies of the voltage drive compared to the gap of the superconductor. Our general formalism allows us to identify the conditions for the excitations that are scattered off the superconductor to become coherent electron-hole superpositions. To this end, we consider the purity of the outgoing states, which characterizes their ability to carry quantum information. To illustrate our formalism, we apply it to a system composed of chiral quantum Hall edge states connected to a superconductor, and we calculate the current in the outgoing lead and the purity of the outgoing states for Lorentzian and harmonic voltage drives. Our framework paves the way for systematic investigations of time-dependent scattering problems involving superconductivity, and it may help interpret future experiments in electron quantum optics with superconductors.
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id arxiv_https___arxiv_org_abs_2503_19436
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Floquet-Nambu theory of electron quantum optics with superconductors
Burset, Pablo
Roussel, Benjamin
Moskalets, Michael
Flindt, Christian
Mesoscale and Nanoscale Physics
Superconductivity
We present a comprehensive Floquet-Nambu theory to describe the time-dependent quantum transport in mesoscopic circuits involving superconductors. The central object of our framework is the first-order correlation function, which accounts for the excitations that are generated by a time-dependent voltage and their coherent scattering off the interface with a superconductor. We analyze the time-dependent current generated by periodic voltage pulses and how it depends on the excitation energies of the voltage drive compared to the gap of the superconductor. Our general formalism allows us to identify the conditions for the excitations that are scattered off the superconductor to become coherent electron-hole superpositions. To this end, we consider the purity of the outgoing states, which characterizes their ability to carry quantum information. To illustrate our formalism, we apply it to a system composed of chiral quantum Hall edge states connected to a superconductor, and we calculate the current in the outgoing lead and the purity of the outgoing states for Lorentzian and harmonic voltage drives. Our framework paves the way for systematic investigations of time-dependent scattering problems involving superconductivity, and it may help interpret future experiments in electron quantum optics with superconductors.
title Floquet-Nambu theory of electron quantum optics with superconductors
topic Mesoscale and Nanoscale Physics
Superconductivity
url https://arxiv.org/abs/2503.19436