\begin{document}$ N=Z $\end{document} using the single-particle energies of a deformed Woods-Saxon mean-field. The variations in the gap parameters, excitation energy, and heat capacity are studied as functions of the temperature. We show that the overall behavior of these quantities is similar to their homologues in the standard FTBCS model. We note in particular the existence of critical temperatures beyond which the pairing vanishes. Moreover, in the framework of the present approach, the pairing effects appear to persist beyond the critical temperatures predicted by the FTBCS model for pairing between like-particles or its generalization for np pairing."> Neutron-proton isovector pairing correlations treatment in heated nuclei within the path integral formalism -
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