Dissipation in microwave quantum circuits with hybrid nanowire Josephson elements

Recent experiments on hybrid Josephson junctions have made the argument a topical subject. However, a quantity which remains still unknown is the tunneling (or response) time, which is strictly connected to the role that dissipation plays in the dynamics of the complete system. A simple way for eval...

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Published inPhysics letters. A Vol. 381; no. 13; pp. 1192 - 1196
Main Authors Mugnai, D., Ranfagni, A., Agresti, A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 04.04.2017
Subjects
Dissipative effects
Hybrid Josephson junctions
Macroscopic quantum tunneling
Hybrid Josephson junctions
Macroscopic quantum tunneling
Dissipative effects
Online AccessGet full text
ISSN0375-9601
1873-2429
DOI10.1016/j.physleta.2017.02.002

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Abstract Recent experiments on hybrid Josephson junctions have made the argument a topical subject. However, a quantity which remains still unknown is the tunneling (or response) time, which is strictly connected to the role that dissipation plays in the dynamics of the complete system. A simple way for evaluating dissipation in microwave circuits, previously developed for describing the dynamics of conventional Josephson junctions, is now presented as suitable for application even to non-conventional junctions. The method is based on a stochastic model, as derived from the telegrapher's equation, and is particularly devoted to the case of junctions loaded by real transmission lines. When the load is constituted by lumped-constant circuits, a connection with the stochastic model is also maintained. The theoretical model demonstrated its ability to analyze both classically-allowed and forbidden processes, and has found a wide field of applicability, namely in all cases in which dissipative effects cannot be ignored. •Dissipative effects in Hybrid Josephson junctions (HJJ) are evaluated.•We apply a known methodology to HJJ in order to obtain the response time of the system.•We present a new theoretical result and its application to HJJ in the case of lumped-constant circuits.
AbstractList Recent experiments on hybrid Josephson junctions have made the argument a topical subject. However, a quantity which remains still unknown is the tunneling (or response) time, which is strictly connected to the role that dissipation plays in the dynamics of the complete system. A simple way for evaluating dissipation in microwave circuits, previously developed for describing the dynamics of conventional Josephson junctions, is now presented as suitable for application even to non-conventional junctions. The method is based on a stochastic model, as derived from the telegrapher's equation, and is particularly devoted to the case of junctions loaded by real transmission lines. When the load is constituted by lumped-constant circuits, a connection with the stochastic model is also maintained. The theoretical model demonstrated its ability to analyze both classically-allowed and forbidden processes, and has found a wide field of applicability, namely in all cases in which dissipative effects cannot be ignored. •Dissipative effects in Hybrid Josephson junctions (HJJ) are evaluated.•We apply a known methodology to HJJ in order to obtain the response time of the system.•We present a new theoretical result and its application to HJJ in the case of lumped-constant circuits.
Author Agresti, A.
Mugnai, D.
Ranfagni, A.
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Keywords Hybrid Josephson junctions
Macroscopic quantum tunneling
Dissipative effects
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Macroscopic quantum tunneling
Title Dissipation in microwave quantum circuits with hybrid nanowire Josephson elements
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