Admittance of a long diffusive SNS junction

Tikhonov, Konstantin S.; Фейгельман, М. В.

doi:10.1103/physrevb.91.054519

Cited by 13 publications

(23 citation statements)

References 31 publications

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“…47. The admittance of long S-n-S junctions in the frequency range Ω ≪ E Th /ħ has been calculated in recent papers, 48,49 where an expression for Y (Ω) similar to Eq. (3) has been obtained.…”

Section: δ∆(T ) ∝ δ∆(0)mentioning

confidence: 99%

Alternating-current properties of short Josephson weak links

Moor

Volkov

2017

Phys. Rev. B

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We calculate the admittance of two types of Josephson weak links-the first is a one-dimensional superconducting wire with a local suppression of the order parameter, and the second is a short S-c-S structure, where S denotes a superconducting reservoir and c is a constriction. The systems of the first type are analyzed on the basis of time-dependent Ginzburg-Landau equations derived by Gor'kov and Eliashberg for gapless superconductors with paramagnetic impurities. It is shown that the impedance Z (Ω) has a maximum as a function of the frequency Ω, and the electric field E Ω is determined by two gauge-invariant quantities. One of them is the condensate momentum Q Ω and another is a potential µ related to charge imbalance. The structures of the second type are studied on the basis of microscopic equations for quasiclassical Green's functions in the Keldysh technique. For short S-c-S contacts (the Thouless energy E Th = D/L 2 ≫ ∆) we present a formula for admittance Y valid frequencies Ω and temperatures T less than the Thouless energy E Th (ħΩ,T ≪ E Th ) but arbitrary with respect to the energy gap ∆. It is shown that, at low temperatures, the absorption is absent [Re(Y ) = 0] if the frequency does not exceed the energy gap in the center of the constriction (Ω < ∆ cos ϕ 0 , where 2ϕ 0 is the phase difference between the S reservoirs). The absorption gradually increases with increasing the difference (Ω − ∆ cos ϕ 0 ) if 2ϕ 0 is less than the phase difference 2ϕ c corresponding to the critical Josephson current. In the interval 2ϕ c < 2ϕ 0 < π, the absorption has a maximum. This interval of the phase difference is achievable in phase-biased Josephson junctions. Close to T c the admittance has a maximum at low Ω which is described by an analytical formula.

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Section: δ∆(T ) ∝ δ∆(0)mentioning

confidence: 99%

Alternating-current properties of short Josephson weak links

Moor

Volkov

2017

Phys. Rev. B

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“…[1,[10][11][12][13][14][15][16] In contrast, the near-equilibrium response of superconductor-normalmetal-superconductor (SNS) junctions to weak microwave radiation has become an active area of investigation only recently. [17][18][19][20][21] While the adiabatic contribution to the kinetic inductance can be calculated from the dc current-phase relation, at high frequencies both reactive and dissipative contributions arise also from other mechanisms, such as driven transitions between quasiparticle states and oscillation of the Andreev level populations. [18] Surprisingly, however, little experimental data has been published on the topic thus far.…”

Section: Doi: 101002/aelm201600227mentioning

confidence: 99%

“…[18] Surprisingly, however, little experimental data has been published on the topic thus far. [22,23] The parameter regimes and materials studied in the published experiments are very sparse, hence limiting the extent to which theoretical predictions [17][18][19][20][21] can be tested. In practice, data on the effective inductance and losses also expedites the process of designing high-frequency SNS-junction-based circuits, such as the SNS nanobolometer.…”

Section: Doi: 101002/aelm201600227mentioning

confidence: 99%

“…This is far below the estimated critical current of the SQUID chain. Furthermore, experimentally we ensured that we measured the linear response by making sure that the measured S 21 was not sensitive to factor-of-two changes in the measurement power.…”

mentioning

confidence: 99%

“…As shown in Figure 2b,c the normalization procedure revealed clear Lorentzian-like lineshapes for S 21 , as one would expect for a resonator of this type. Raw ′ Φ = ( 0) 21 S and ′ Φ = ( 0.3) 21 S data are shown in Figure S3 of the Supporting Information for reference. Disentangling the SQUID chain response from the rest of the circuit is also aided by the fact that the SQUID chain is the only circuit element that responds to flux periodically, with a period that is identical for all of the identified resonances.…”

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confidence: 99%

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Microwave Admittance of Gold‐Palladium Nanowires with Proximity‐Induced Superconductivity

Lake

Govenius

Kokkoniemi

et al. 2017

Adv Elect Materials

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measurements. [8,9] Shapiro steps, supercurrent enhancement, and other non-equilibrium effects under intense microwave irradiation have also been extensively studied. [1,[10][11][12][13][14][15][16] In contrast, the near-equilibrium response of superconductor-normalmetal-superconductor (SNS) junctions to weak microwave radiation has become an active area of investigation only recently. [17][18][19][20][21] While the adiabatic contribution to the kinetic inductance can be calculated from the dc current-phase relation, at high frequencies both reactive and dissipative contributions arise also from other mechanisms, such as driven transitions between quasiparticle states and oscillation of the Andreev level populations. [18] Surprisingly, however, little experimental data has been published on the topic thus far. [22,23] The parameter regimes and materials studied in the published experiments are very sparse, hence limiting the extent to which theoretical predictions [17][18][19][20][21] can be tested. In practice, data on the effective inductance and losses also expedites the process of designing high-frequency SNS-junction-based circuits, such as the SNS nanobolometer. [24,25] Previous experimental studies [22,23] have probed flux-and temperature-dependent changes in the linear microwave response of a superconducting ring with a gold normal-metal inclusion. The superconducting ring consisted of ion-beamdeposited tungsten in the first experiments, [22] and sputterdeposited Nb with a thin Pd layer at the SN interface in the later experiments. [23] A single SNS ring was biased with a dc magnetic flux and coupled weakly to a multi-mode microwave resonator. By measuring flux-dependent shifts in the quality factors and resonance frequencies, the authors determined how the complex-valued electrical susceptibility χ changes. [22,23] The change in χ, as a function of flux and temperature, was reported to be in excellent agreement with theoretical predictions based on Usadel equations and numerical simulations. However, the implicit offsets in both the real and imaginary parts of the reported susceptibility prevent a comparison to the theoretically predicted absolute values of Re In this article, we present measurements of the SNS junction admittance Z -1 (ω) = χ/iω for gold-palladium based junctions at angular frequencies ω of order 2π × 1 GHz. We use a chain of

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Intrinsic Dissipation in Superconducting Junctions Probed by Qubit Spectroscopy

Golubev

Galaktionov

Zaikin

2018

Physica Rapid Research Ltrs

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The study of frequency‐dependent intrinsic dissipation in a highly transparent Josephson junction by means of quantum‐bit (qubit) spectroscopy is proposed. The spectral density of the effective dissipative bath may contain significant contributions from Andreev bound states coupled to fluctuations of the Josephson phase. Varying either the bias current applied to the junction or magnetic flux through a superconducting ring in the radiofrequency superconducting quantum interference device (rf‐SQUID) setup, one can tune the level splitting value close to the bottom of the Josephson potential well. Monitoring the qubit energy relaxation time one can probe the spectral density of the effective dissipative bath and unambiguously identify the contribution emerging from Andreev levels.

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Admittance of a long diffusive SNS junction

Cited by 13 publications

References 31 publications

Alternating-current properties of short Josephson weak links

Alternating-current properties of short Josephson weak links

Microwave Admittance of Gold‐Palladium Nanowires with Proximity‐Induced Superconductivity

Intrinsic Dissipation in Superconducting Junctions Probed by Qubit Spectroscopy

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