Stiffness and coherence length measurements of ultra-thin superconductor, and implications to layered superconductors
Abstract
Based on the London equation, we use a rotor-free vector potential A, and current measurements by a SQUID, to determine the superconducting Pearl length , and coherence length , of ultra-thin, ring shaped, MoSi films, as a function of thickness d and temperature T. We find that is a function of d with a jump at d 5nm. At base temperature the superconducting stiffness, defined by 1/λ2=1/( d), is an increasing function of Tc. Similar behavior, known as the Uemura plot, exist in bulk layered superconductors, but with doping as an implicit parameter. We also provide the critical exponents of (T).
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