English

Threshold fluctuations in a superconducting current-carrying bridge

Superconductivity 2017-06-15 v2 Mesoscale and Nanoscale Physics

Abstract

We calculate the energy of threshold fluctuation δFthr\delta F_{thr} which triggers the transition of superconducting current-carrying bridge to resistive state. We show that the dependence δFthr(I)Idep(1I/Idep)5/4/e\delta F_{thr}(I)\propto I_{dep}\hbar(1-I/I_{dep})^{5/4}/e, found by Langer and Ambegaokar for a long bridge with length LξL \gg \xi, holds far below the critical temperature both in dirty and clean limits (here IdepI_{dep} is the depairing current of the bridge and ξ\xi is a coherence length). We also find that even 'weak' local defect (leading to the small suppression of the critical current of the bridge IcIdepI_c \lesssim I_{dep}) provides δFthrIc(1I/Ic)3/2/e\delta F_{thr}\propto I_c\hbar(1-I/I_c)^{3/2}/e, typical for a short bridge with LξL \ll \xi or a Josephson junction.

Keywords

Cite

@article{arxiv.1701.05367,
  title  = {Threshold fluctuations in a superconducting current-carrying bridge},
  author = {P. M. Marychev and D. Yu. Vodolazov},
  journal= {arXiv preprint arXiv:1701.05367},
  year   = {2017}
}

Comments

8 pages,7 figures; typos corrected, argument added in section 2

R2 v1 2026-06-22T17:54:01.348Z