Shape- and orientation-dependence of surface barriers in single crystalline d-wave Bi2Sr2CaCu2O8+delta

Abstract

Magneto-optical imaging and Hall-probe array magnetometry are used to measure the field of first flux entry, Hp, into the same Bi2Sr2CaCu2O8+delta single crystal cut to different crystal thickness-to-width ratios (d/w), and for two angles alpha between the edges and the principal in-plane crystalline (a,b) axes. At all temperatures, the variation with aspect ratio of Hp is qualitatively well described by calculations for the so-called geometric barrier [E.H. Brandt, Phys. Rev. B 60, 11939 (1999)]. However, the magnitude of Hp is strongly enhanced due to the square shape of the crystal. In the intermediate temperature regime (T < ~ 50 K) in which the Bean-Livingston barrier limits vortex entry, there is some evidence for a tiny crystal-orientation dependent enhancement when the sample edges are at an angle of 45 with respect to the crystalline axes, rather than parallel to them.