Key points are not available for this paper at this time.
It is shown that the effects of the charging energy on the mean-field transition temperature of a granular superconductor depend in a profound manner on the choice of the interval for the phase of the order parameter. For -<< a well pronounced reentrant behavior is obtained for the diagonal model, in which the Coulomb interaction is neglected. The reentrance disappears in this model when the interval is taken to be -<<. Dipolar excitations of the nondiagonal model, considered recently by Efetof are shown to diminish the extent of reentrance for the -<< model and to produce a weak reentrance in the -<< case. The reentrant behavior is shown to be due to the thermally induced phase coherence via the low-lying excited states characterized by the vanishing of the frequency of the phase rotation.
E. Šimánek (Mon,) studied this question.