Thermodynamic properties of massive dilaton black holes II
Abstract
We numerically reanalyze static and spherically symmetric black hole solutions in an Einstein-Maxwell-dilaton system with a dilaton potential md2φ2. We investigate thermodynamic properties for various dilaton coupling constants and find that thermodynamic properties change at a critical dilaton mass md,crit. For md≥ md,crit, the black hole becomes an extreme solution for a nonzero horizon radius rh,ex as the Reissner-Nordstr\"om black hole. However, if md is nearly equal to md,crit, there appears a solution of smaller horizon radius than rh,ex. For md<md,crit, a solution continues to exist until the horizon approaches zero. The Hawking temperature in the zero horizon limit resembles that of a massless dilaton black hole for arbitrary dilaton coupling constant.
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