Your search keyword '"phase slip centers"' showing total 3 results

1. Local thermal fluctuations in current-carrying superconducting nanowires

Author

Mariia Sidorova, Michael Siegel, Artem Kuzmin, Konstantin Ilin, A. D. Semenov, and Mikhail A. Skvortsov

Subjects

phase slip centers, Photon, Physics - Instrumentation and Detectors, Thermodynamic equilibrium, dark counts, fluctuations, FOS: Physical sciences, Thermal fluctuations, 02 engineering and technology, 01 natural sciences, single-photon detectors, Spectral line, Superconductivity (cond-mat.supr-con), Saddle point, 0103 physical sciences, Terahertz- und Laserspektroskopie, 010306 general physics, stochastisch processes, Superconductivity, Physics, Condensed matter physics, Local thermal fluctuations, Condensed Matter - Superconductivity, Instrumentation and Detectors (physics.ins-det), 021001 nanoscience & nanotechnology, Coherence length, 0210 nano-technology, superconducting nanowires, Doppler broadening

Abstract

We analyze the effect of different types of fluctuations in internal electron energy on the rates of dark and photon counts in straight current-carrying superconducting nanowires. Dark counts appear due to thermal fluctuations in statistically independent cells with the effective size of the order of the coherence length; each count corresponds to an escape from the equilibrium state through an appropriate saddle point. For photon counts, spectral broadening of the deterministic cut off in the spectra of the detection efficiency can be phenomenologically explained by local thermal fluctuations in the electron energy within cells with the same effective volume as for dark counts.

Published

2020

2. Transient Response of Superconducting Microbridges to Supercritical Currents.

Author

HARVARD UNIV CAMBRIDGE MA DIV OF APPLIED SCIENCES, Frank,David J, HARVARD UNIV CAMBRIDGE MA DIV OF APPLIED SCIENCES, and Frank,David J

Abstract

We have made time-resolved measurements of the voltage waveforms on one-dimensional superconducting strips caused by current pulses in excess of their critical currents. We report the first known observations of the kinetic inductance spike the non-zero minimum voltage, and the time-domain development of phase-slip centers. These measurements were made on indium microbridges and represent an important extension of the work of Pals and Wolter to a higher critical temperature material. We have also measured the delay time between the application of the current pulse and the development of the first phase slip center in these bridges and have used it in conjunction with the SST theory (Schmidt, Schon and Tinkham 1980) to estimate a Tau sub E of 140 picoseconds for indium. In addition we have made a few measurements on dirty aluminum strips which also show the time domain development of phase slip centers. We have compare the data with the nonequilibrium superconductivity theory SST wherever possible. To do this, we have developed a computer program that approximation. From these numerical solutions we have found that, for the most part, the theory is in good agreement with the data. We have also used this exact solution to test the validity of several simpler approximations., Sponsored in part by Grant NSF-DMR79-04155.

Published

1983

3. Phase-Slip Centers and Their Interactions.

Author

HARVARD UNIV CAMBRIDGE MA DIV OF APPLIED SCIENCES, Aponte,Juan M, HARVARD UNIV CAMBRIDGE MA DIV OF APPLIED SCIENCES, and Aponte,Juan M

Abstract

The author performed a series of different experiments in order to measure the diffusion length of the quasiparticle charge generated in a phase-slip center (PSC) and to detect the oscillations of the supercurrent in the PSC. Three different types of samples were fabricated photolithographically: samples of type S, samples of type T and samples of type M., Sponsored in part by Grant NSF-DMR79-04155.

Published

1983