Vortex Counting and Velocimetry for Slitted Superconducting Thin Strips
Autor: | V.M. Bevz, M.Yu. Mikhailov, B. Budinská, S. Lamb-Camarena, S.O. Shpilinska, A.V. Chumak, M. Urbánek, M. Arndt, W. Lang, O.V. Dobrovolskiy |
---|---|
Rok vydání: | 2023 |
Předmět: | |
Zdroj: | Physical Review Applied. 19 |
ISSN: | 2331-7019 |
DOI: | 10.1103/physrevapplied.19.034098 |
Popis: | The maximal speed $v^\ast$ for magnetic flux quanta is determined by the energy relaxation of unpaired electrons and is thus essential for superconducting microstrip single-photon detectors (SMSPDs). However, the deduction of $v^\ast$ from the current-voltage ($I$-$V$) curves at zero magnetic field is hindered by the unknown number of vortices, $n_\mathrm{v}$, as a small number of fast-moving vortices can induce the same voltage as a large number of slow-moving ones. Here, we introduce an approach for the quantitative determination of $n_\mathrm{v}$ and $v^\ast$. The idea is based on the Aslamazov and Larkin prediction of kinks in the $I$-$V$ curves of wide and short superconducting constrictions when the number of fluxons crossing the constriction is increased by one. We realize such conditions in wide MoSi thin strips with slits milled by a focused ion beam and reveal quantum effects in a macroscopic system. By observing kinks in the $I$-$V$ curves with increase of the transport current, we evidence a crossover from a single- to multi-fluxon dynamics and deduce $v^\ast\simeq12\,$km/s. Our experimental observations are augmented with numerical modeling results which reveal a transition from a vortex chain over a vortex jet to a vortex river with increase of $n_\mathrm{v}$ and the vortex velocity. Our findings are essential for the development of 1D and 2D few-fluxon devices and provide a demanded approach for the deduction of $v^\ast$ at the SMSPD operation conditions. Comment: 10 pages, 4 figures |
Databáze: | OpenAIRE |
Externí odkaz: |