Critical current across grain boundaries in melt-textured YBa2Cu3O7-delta rings - art. no. 144507

We determine the critical current J(cB) of grain boundaries fabricated by " welding" of melt-textured YBCO with various degrees of ab-plane misalignmen t. J(cB) is determined by monitoring the magnetic moment due to persistent shielding currents, which were induced in rings containing two sections of a single grain boundary. The voltage drop across the junctions is estimated to be below 10(-12) V, much smaller than in typical transport measurements . As the temperature or magnetic field is increased, an abrupt decrease (ki nk) is observed in the magnetic moment of the ring when the induced shieldi ng current in the ring exceeds the critical current across the boundaries. The kink signals that flux has begun to penetrate through the grain boundar ies into the bore of the ring. This behavior is confirmed by magneto-optica l imaging. We observe that grain boundaries with [001] tilt mismatch angles up to 5 degrees have critical current densities in excess of 10(4) A/cm(2) , comparable to the bulk current density. At larger mismatch angles, the cr itical current rapidly decreases with increasing angle. The qualitative beh avior of J(cB) as function of temperature, magnetic field, and misorientati on angle is similar to that observed YBCO grain boundaries manufactured by other methods.