Transverse depinning and melting of a moving vortex lattice in driven periodic Josephson junction arrays
arXiv:cond-mat/9812213 · doi:10.1103/PhysRevLett.82.4922
Abstract
We study the effect of thermal fluctuations in a vortex lattice driven in the periodic pinning of a Josephson junction array. The phase diagram current ($I$) vs. temperature ($T$) is studied. Above the critical current $I_c(T)$ we find a moving vortex lattice (MVL) with anisotropic Bragg peaks. For large currents $I\gg I_c(T)$, there is a melting transition of the MVL at $T_M(I)$. When applying a small transverse current to the MVL, there is no dissipation at low $T$. We find an onset of transverse vortex motion at a transverse depinning temperature $T_{tr}(I)<T_M(I)$.
4 pages, 4 figures, Figure 2 changed, added new references