The heat capacity and derived thermophysical properties of the high T C superconductor YBa2Cu3O7−δ from 5.3 to 350 K

1 June 1990

journal article
conference paper
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 92 (11) , 6794-6799
https://doi.org/10.1063/1.458266

Abstract

The heat capacity of the perovskite high‐T_C superconductor YBa₂Cu₃O_7−δ was measured from 5.3 to 350 K in an adiabatic calorimetric cryostat. A break in the heat‐capacity curve, associated with the critical temperature for superconductivity was observed between 90.09 and 92.59 K. The transition temperature was identified as 91.44 K, and ΔC_p,m was calculated to be 0.559R at that temperature. The lattice heat capacity was evaluated by means of the recently developed Komada/Westrum phonon distribution model and the apparent characteristic temperature Θ_KW was calculated to be 107.7 K. The excess electronic heat capacity for the superconducting phase was evaluated and the energy gap was identified as 234. R K. Excess contribution, resulting from magnetic impurities, was noted below 20 K. Thermodynamic properties at selected temperatures are presented.

Keywords

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