First-Order Vortex Lattice Melting and Magnetization of YBa2Cu3O$7-δ

Abstract

We present the first non-mean-field calculation of the magnetization M(T) of YBa2Cu3O7-δ both above and below the flux-lattice melting temperature Tm(H). The results are in good agreement with experiment as a function of transverse applied field H. The effects of fluctuations in both order parameter ( r) and magnetic induction B are included in the Ginzburg-Landau free energy functional: ( r) fluctuates within the lowest Landau level in each layer, while B fluctuates uniformly according to the appropriate Boltzmann factor. The second derivative (∂2 M/∂ T2)H is predicted to be negative throughout the vortex liquid state and positive in the solid state. The discontinuities in entropy and magnetization at melting are calculated to be 0.034\, kB per flux line per layer and 0.0014~emu~cm-3 at a field of 50 kOe.

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