TL;DR
This paper investigates the properties of a charged dilaton black hole with negligible angular momentum, focusing on its gyromagnetic ratio and moment of inertia, revealing dependencies on the dilaton interaction and charge-to-mass ratio.
Contribution
It provides new insights into the gyromagnetic ratio and moment of inertia of charged dilaton black holes with infinitesimal angular momentum.
Findings
Gyromagnetic ratio depends on dilaton-electromagnetic interaction parameter.
Gyromagnetic ratio nonlinearly depends on charge-to-mass ratio.
Moment of inertia calculated for infinitesimal angular momentum.
Abstract
A charged dilaton black hole which possesses infinitesimal angular momentum is studied. We find that the gyromagnetic ratio of the dilaton black hole depends not only on the parameter which appears in the interaction between the dilaton and the electric field but also nonlinearly on the ratio of the charge to the mass of the black hole. The moment of inertia for the charged dilaton hole in the limit of infinitesimal angular momentum is also calculated.
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