Reversible and irreversible magnetocaloric effect in the NdBa2Cu3O7 superconductor in relation with specific heat and magnetization
Abstract
A recently developed technique for measuring the isothermal magnetocaloric coefficient (MT) is applied to the study of a superconducting NdBa2Cu3O7 single crystal. Results are compared with magnetization (M) and specific heat (C). In the reversible region both C and MT follow the scaling law of the 3D-xy universality class. The anomalies connected with flux-line lattice melting are visible on MT(B) curves as peaks and steps, similar to C(T) curves yet with much smaller background. At lower temperature, in the irreversible region the MT(B) behaviour resembles more that of M(B), exhibiting the "fishtail" effect. Our results confirm that the peculiarities of the phase diagram known from the high temperature superconductor YBa2Cu3O7, e.g. vortex melting, dominance of critical fluctuations and absence of a Bc2 critical field line, are a common property of RE-123 systems.
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