English

Evidence for current suppression in superconductor-superconductor bilayers

Superconductivity 2024-01-02 v2 Materials Science

Abstract

Superconducting radio frequency (SRF) cavities, which are critical components in many particle accelerators, need to be operated in the Meissner state to avoid strong dissipation from magnetic vortices. For a defect-free superconductor, the maximum attainable magnetic field for operation is set by the superheating field, BshB_{\mathrm{sh}}, which directly depends on the surface current. In heterostructures composed of different superconductors, the current in each layer depends not only on the properties of the individual material, but also on the electromagnetic response of the adjacent layers through boundary conditions at the interfaces. Three prototypical bilayers [Nb1xTixN\mathrm{Nb_{1-x}Ti_xN}(50 nm)/Nb, Nb1xTixN\mathrm{Nb_{1-x}Ti_xN}(80 nm)/Nb, and Nb1xTixN\mathrm{Nb_{1-x}Ti_xN}(160 nm)/Nb] are investigated here by depth-resolved measurements of their Meissner screening profiles using low-energy muon spin rotation (LE-μ\muSR). From fits to a model based on London theory (with appropriate boundary and continuity conditions), a magnetic penetration depth for the thin Nb1xTixN\mathrm{Nb_{1-x}Ti_xN} layers of λNb1xTixN=\lambda_\mathrm{Nb_{1-x}Ti_xN} = 182.5(31) nm is found, in good agreement with literature values for the bulk alloy. Using the measured λNb1xTixN\lambda_\mathrm{Nb_{1-x}Ti_xN}, the maximum vortex-free field, BmaxB_{\mathrm{max}}, of the superconductor-superconductor (SS) bilayer structure was estimated to be 610(40) mT. The strong suppression of the surface current in the Nb1xTixN\mathrm{Nb_{1-x}Ti_xN} layer suggests an optimal thickness of 1.4λNb1xTixN=\sim 1.4 \lambda_{\mathrm{Nb_{1-x}Ti_xN}} = 261(14) nm.

Keywords

Cite

@article{arxiv.2304.09360,
  title  = {Evidence for current suppression in superconductor-superconductor bilayers},
  author = {Md Asaduzzaman and Ryan M. L. McFadden and Anne-Marie Valente-Feliciano and David R. Beverstock and Andreas Suter and Zaher Salman and Thomas Prokscha and Tobias Junginger},
  journal= {arXiv preprint arXiv:2304.09360},
  year   = {2024}
}

Comments

13 pages and 8 figures

R2 v1 2026-06-28T10:10:28.945Z