Stiffnessometer, a magnetic-field-free superconducting stiffness meter and its application

Abstract

We provide a detailed account for a new method to measure superconducting stiffness s, critical current density jc, and coherence length , in one apparatus, without subjecting the sample to magnetic field or attaching leads. The method is based on the London equation j=-sA, where j is the current density and A is the vector potential. Using a rotor free A and a measurement of j via the magnetic moment of a superconducting ring, we determine s. By increasing A until the London equation fails we determine jc and . The method is sensitive to very small stiffness, which translates to penetration depth λ 1~mm. It is also sensitive to low critical current density jc 103 Amm-2 or long coherence length 1~μm. Naturally, the method does not suffer from demagnetization factor complications, the presence of vortices, or out-of-equilibrium conditions. Therefore, the absolute values of the different parameters can be determined. We demonstrate the application of this method to La2-xSrxCuO4 with x=0.17.