Abstract
An analysis of recent magnetoresistance measurements on high-quality Y-Ba-Cu-O crystals in which the angle \ensuremath{\theta} of the field relative to the c axis was varied is reported. Although the current was perpendicular to the applied field for several of the various orientations, the data show evidence for comparatively small conventional flux flow; and the data are accurately represented by a combination of phase-slip and flux-flow resistivities. We compare anisotropic expressions for phase-slip resistivity using the Ginzburg-Landau (GL) anisotropic-effective-mass formula, and the form given by Tinkham appropriate to thin films. It is shown that the resulting anistrotpic (GL) expression for the field and angular-dependent phase-slip resistivity accurately describes the experimental data with the field parallel and perpendicular to the ab plane, but only approximates the angular dependence. Use of the Tinkham expression improves the fit, suggesting that Y-Ba-Cu-O behaves as a layered stack of ``thin film'' superconductors.
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