Microwave Signature of the Emerging Abrikosov Lattice Above Hc2
Abstract
The emergence of the Abrikosov lattice in the normal phase of type-II superconducting films when the magnetic field approaches the critical field Hc2 from above was predicted in Ref.~GVV2011. In the quantum fluctuation regime GL2001 it is characterized by the formation of relatively large (with sizes of order QF BCSHc2/(H-Hc2)) ``long lived'' (lifetime of order τQF -1 Hc2/(H-Hc2)) clusters of rotating fluctuation Cooper pairs - signatures of developing Abrikosov vortices. We demonstrate that these fluctuation-induced vortex clusters, previously considered unobservable due to their ultrafast dynamics and weak (only logarithmically singular) contribution to the dc-conductivity, can in fact be detected through their distinct electromagnetic signature. By analyzing the high-frequency electromagnetic response of these rotating fluctuation Cooper pairs above the second critical field in superconducting film, we predict a pronounced and measurable enhancement in the imaginary part of the ac-conductivity arising directly from quantum fluctuations. This enhancement is expected to occur at characteristic frequencies ωQF -1(H-Hc2)/Hc2, which are well below the superconducting threshold at 2-1 , where a similar increase in imaginary conductivity occurs in the superconducting phase. For niobium, a prototypical type II superconductor, ωQF lies in the experimentally accessible microwave range, making the effect directly testable with modern microwave spectroscopy.
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