Gyromagnetic factor of rotating disks of electrically charged dust in general relativity

Abstract

We calculated the dimensionless gyromagnetic ratio ("g-factor") of self-gravitating, uniformly rotating disks of dust with a constant specific charge ε. These disk solutions to the Einstein-Maxwell equations depend on ε and a "relativity parameter" γ (0<γ 1) up to a scaling parameter. Accordingly, the g-factor is a function g=g(γ,ε). The Newtonian limit is characterized by γ 1, whereas γ 1 leads to a black-hole limit. The g-factor, for all ε, approaches the values g=1 as γ 0 and g=2 as γ 1.