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Anisotropy and directional pinning in YBaCuO with BaZrO3 nanorods

Published 14 Nov 2012 in cond-mat.supr-con and cond-mat.mtrl-sci | (1211.3311v2)

Abstract: Measurements of anisotropic transport properties (dc and high-frequency regime) of driven vortex matter in YBa$2$Cu$_3$O${7-x}$ with elongated strong-pinning sites (c-axis aligned, self-assembled BaZrO$_3$ nanorods) are used to demonstrate that the effective-mass angular scaling takes place only in intrinsic physical quantities (flux-flow resistivity), and not in pinning-related Labusch parameter and critical currents. Comparison of the dynamics at different time scales shows evidence for a transition of the vortex matter toward a Mott phase, driven by the presence of nanorods. The strong pinning in dc arises partially from a dynamic effect.

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