Nonequilibrium structures and dynamic transitions in driven vortex lattices with disorder

Abstract

We review our studies of elastic lattices driven by an external force F in the presence of random disorder, which correspond to the case of vortices in superconducting thin films driven by external currents. Above a critical force Fc we find two dynamical phase transitions at Fp and Ft, with Fc<Fp<Ft. At Fp there is a transition from plastic flow to smectic flow where the noise is isotropic and there is a peak in the differential resistance. At Ft there is a sharp transition to a frozen transverse solid where both the transverse noise and the diffussion fall down abruptly and therefore the vortex motion is localized in the transverse direction. From a generalized fluctuation-dissipation relation we calculate an effective transverse temperature in the fluid moving phases. We find that the effective temperature decreases with increasing driving force and becomes equal to the equilibrium melting temperature when the dynamic transverse freezing occurs.

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