Thermodynamic and Transport Properties of Superconducting Mg10B2
Abstract
Transport and thermodynamic properties of a sintered pellet of the newly discovered MgB2 superconductor have been measured to determine the characteristic critical magnetic fields and critical current densities. Both resistive transition and magnetization data give similar values of the upper critical field, Hc2, with magnetization data giving dHc2/dT=0.44~T/K at the transition temperature of Tc=40.2 K. Close to the transition temperature, magnetization curves are thermodynamically reversible, but at low temperatures the trapped flux can be on the order of one Tesla. The value of dHc/dT at Tc is estimated to be about 12~mT/K, a value similar to classical superconductors like Sn. Hence, the Ginsburg-Landau parameter 26. Estimates of the critical supercurrent density, Jc, using hysteresis loops and the Bean model give critical current densities on the order of 105~A/cm2. Hence the supercurrent coupling through the grain boundaries is comparable to intermetallics like Nb3Sn.
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