Nature of the Low Field Transition in the Mixed State of High Temperature Superconductors

Abstract

We have numerically studied the statics and dynamics of a model three-dimensional vortex lattice at low magnetic fields. For the statics we use a frustrated 3D XY model on a stacked triangular lattice. We model the dynamics as a coupled network of overdamped resistively-shunted Josephson junctions with Langevin noise. At low fields, there is a weakly first-order phase transition, at which the vortex lattice melts into a line liquid. Phase coherence parallel to the field persists until a sharp crossover, conceivably a phase transition, near T > Tm which develops at the same temperature as an infinite vortex tangle. The calculated flux flow resistivity in various geometries near T=T closely resembles experiment. The local density of field induced vortices increases sharply near T, corresponding to the experimentally observed magnetization jump. We discuss the nature of a possible transition or crossover at T(B) which is distinct from flux lattice melting.

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