Transient Vortex States in ${{Bi}_{2} {Sr}_{2} {CaCu}_{2} O}_{8 + δ}$ Crystals

17 April 2000

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 84 (16) , 3698-3701
https://doi.org/10.1103/physrevlett.84.3698

Abstract

A high temporal resolution magneto-optical system is employed to observe the time evolution of the vortex structure in

{Bi}_{2} {Sr}_{2} {CaCu}_{2} O_{8 + δ}

crystals after a sudden application of a magnetic field. The magneto-optical images reveal dynamic coexistence of two vortex phases: a quasiordered phase in the sample interior and a transient disordered phase near the sample edges. The border between these two phases, marked by an abrupt change in the gradient of the local induction, moves with time. This motion enables tracing the decay of the transient state and the concurrent growth of the thermodynamic vortex phases. The growth rate is sensitive to the location in the field-temperature phase diagram.

Keywords

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Transient Vortex States inBi2Sr2CaCu2O8+δCrystals

Abstract

Keywords

Transient Vortex States in ${{Bi}_{2} {Sr}_{2} {CaCu}_{2} O}_{8 + δ}$ Crystals