M. Yu. Levichev scite author profile

We demonstrate, both theoretically and experimentally, that thin dirty superconductor-normal metal bilayer with resistivity of normal metal ρN much smaller than normal-state resistivity of superconductor ρS has unique superconducting properties. First of all the normal layer provides the dominant contribution to the diamagnetic response of whole bilayer structure in wide temperature interval below the critical temperature due to proximity induced superconductivity. Secondly, the presence of the normal layer may increase the critical current Ic in several times (the effect is not connected with enhanced vortex pinning), provides strong temperature dependence of both Ic and effective magnetic field penetration depth even at temperatures much below the critical one and leads to the diode effect in parallel magnetic field. Besides of general interest we believe that the found results may be useful in construction of different kinds of superconducting detectors.

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Approaching depairing current in dirty thin superconducting strip covered by low resistive normal metal

Ustavschikov

Levichev

Pashen’kin

et al. 2020

Supercond. Sci. Technol.

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We experimentally demonstrate that a thin dirty superconducting (S) strip covered by low resistive normal metal (N) approaches closer to the depairing current than a single S strip, which makes its non-linear properties stronger. The obtained result comes from proximity-induced superconductivity in the N layer, its large contribution to the superconducting properties of the SN bilayer and larger sensitivity to the current than that of the host S layer. We argue that such an SN bilayer could be a promising system for different applications based on the current-dependent kinetic inductance. In addition, we also find that in the presence of the N layer the maximal vortex velocity in the resistive state considerably increases.

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Spectral characteristics of noisy Josephson flux flow oscillator

Matrozova

Pankratov

Levichev

et al. 2011

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The current-voltage and spectral characteristics of a flux flow oscillator (FFO) based on a long Josephson junction are studied. The investigations are performed in the range of small bias currents and magnetic fields where the FFO radiates a quasi-chaotic signal with extremely large radiation linewidth, and the displaced linear slope (DLS) is observed at the current-voltage characteristic. Using direct numerical simulation of the sine-Gordon equation, it is shown that for large lengths of the Josephson junction or in the case of partial matching of the FFO with external waveguide system, the DLS with extremely large linewidth is transformed into Fiske steps with very narrow linewidth. As for Fiske steps, the appearance of regime of chaotic oscillations can be explained by multiple reflections of the traveling waves from junction ends rather than simply by excitation of the internal oscillation modes in the “soft” fluxon chain at weak magnetic fields.

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The Proximity and Josephson Effects in Niobium Nitride–Aluminum Bilayers

Levichev

El’kina

Bukharov³

et al. 2019

Phys. Solid State

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Photoresponse of current-biased superconductor/normal metal strip with large ratio of resistivities

Ustavshikov

Nozdrin

Levichev

et al. 2020

J. Phys. D: Appl. Phys.

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We study the perspective of thin bilayer strips made of highly resistive (in the normal state) superconductor (S) and low resistive normal metal (N) as a detector of electromagnetic radiation. A small minigap in the quasiparticle spectra, induced in the N layer due to proximity induced superconductivity from the S layer and the ability of low resistive N layer to carry a larger superconducting current than the host dirty superconductor leads to steep temperature dependence of critical current of SN strip in wide temperature ranges. It results in higher sensitivity of current-biased SN strip to the electromagnetic radiation in comparison with S strip. We present experimental results on several microns wide MoN/Cu and MoN strips, which confirm this statement in the bolometric regime. We also discuss possible advantages of single photon counting by narrow SN strips.

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M. Yu. Levichev

Peculiar superconducting properties of a thin film superconductor–normal metal bilayer with large ratio of resistivities

Approaching depairing current in dirty thin superconducting strip covered by low resistive normal metal

Spectral characteristics of noisy Josephson flux flow oscillator

The Proximity and Josephson Effects in Niobium Nitride–Aluminum Bilayers

Photoresponse of current-biased superconductor/normal metal strip with large ratio of resistivities

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