Increase of critical currents and peak effect in Mo substituted YBa2Cu3O7
Abstract
Superconducting critical currents jc > 105 A/cm2 at temperatures T 50 K and magnetic fields B 6 T are reported for the YBa2Cu3-xMoxO7+d compound with x = 0.02. Clear evidence for the increased pinning force Fp was found from a peak effect present for jc(B). The pinning force was analyzed by a scaling procedure using Kramer's approach. For a wide range of fields and temperatures, we were able to express all Fp data as a single function of a reduced field b = B/Bk, where the scaling field Bk << Hc2 was related to the irreversibility filed Birr. Analyses of the field dependence of jc(B,T) and Fp(b) show that the effective pinning centers act as weakly interacting extended point-like defects. We propose that the pinning centers are randomly distributed small defects, most likely the dimers of MoO6 octahedra in the CuO chains.
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