Torque magnetometry on single-crystal high temperature superconductors near the critical temperature: a scaling approach

Abstract

Angular-dependent magnetic torque measurements performed near the critical temperature on single crystals of HgBa2CuO4+y, La2-xSrxCuO4, and YBa2Cu3O6.93 are scaled, following the 3D XY model, in order to determine the scaling function dG(z)/dz which describes the universal critical properties near Tc. A systematic shift of the scaling function with increasing effective mass anisotropy γ = (mab*/mc*)1/2 is observed, which may be understood in terms of a 3D-2D crossover. Further evidence for a 3D-2D crossover is found from temperature-dependent torque measurements carried out in different magnetic fields at different field orientations δ, which show a quasi 2D "crossing region'' (M*,T*). The occurrence of this "crossing phenomenon'' is explained in a phenomenological way from the weak z dependence of the scaling function around a value z = z*. The "crossing'' temperature T* is found to be angular-dependent. Torque measurements above Tc reveal that fluctuations are strongly enhanced in the underdoped regime where the anisotropy is large, whereas they are less important in the overdoped regime.

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