Superconducting Networks

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We calculated the magnetic-field dependence of the energy and vortex occupation for novel superconducting double network consisting of two interlaced subnetworks of small and large loops. We employ two different approaches: Mean-field analysis that minimizes the network energy assuming random-vortex configurations and numerical simulations in which energy is minimized avoiding this assumption.

In the mean-field analysis the vortex population in both subnetworks increases linearly with the applied field. In contrast the simulations show that while the population of the large loops increases linearly with field, the occupation of the small loops grows in steps, resembling the behavior of an ensemble of decoupled loops. This decoupling is also reflected in the waveform of the energy versus applied field. A modified mean-field analysis, which introduces decoupling between the small loops, yields results in excellent agreement with the simulations. These findings suggest that the behavior of a single loop is reflected in the double network and thus constitute it as a favorable system for the experimental study of quantization effects in superconducting loops.

 

Single-loop like energy oscillations and staircase vortex occupation in superconducting double networks
I. Sochnikov, Y. Shokef, A. Shaulov, and Y. Yeshurun
Physical Review B 84, 024513 (2011)

Dichotomic fluxoid quantization effects in a superconducting double network
I. Sochnikov, Y. Shokef, A. Shaulov, and Y. Yeshurun
Journal of Physics: Conference Series 400, 022110 (2012)

Fluxoid quantization effects in high-Tc superconducting double networks
I. Sochnikov, Y. Shokef, G. Logvenov, I. Bo┼żovic, A. Shaulov, and Y. Yeshurun
Journal of Physics: Conference Series 400, 022109 (2012)

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Yair Shokef | School of Mechanical Engineering, Tel Aviv University, Tel Aviv 69978, Israel | Office: Wolfson 334 | Phone: +972-3-640-8393 | Email: This email address is being protected from spambots. You need JavaScript enabled to view it.