ANGULAR MOMENTUM, MAGNETIC MOMENT, AND G FACTOR IN GENERAL RELATIVITY
198729 pages
Published in:
- Int.J.Theor.Phys. 26 (1987) 1189-1217
DOI:
View in:
Citations per year
Abstract: (Springer)
The solutions to the Einstein-Maxwell equations for the case of a slowly rotating, massive thin shell with arbitrary charge are investigated. The form of the metric chosen here facilitates a more detailed analysis of the shell's angular momentum, magnetic moment, andg-factor than in earlier work. In addition to confirming earlier results, it is found that, for a charge-to-mass ratio greater than unity there is no upper or lower bound on the valueg may take and that the magnetic moment and net angular momentum of the shell may vanish or change sign (relative to the sense of rotation).- Einstein-Maxwell equation
- FIELD EQUATIONS: SOLUTION
- FIELD THEORY: SPACE-TIME
- TRANSFORMATION: ASYMPTOTIC BEHAVIOR
- BOUNDARY CONDITION
- ANGULAR MOMENTUM
- MAGNETIC MOMENT
- general relativity
- NUMERICAL CALCULATIONS
References(0)
Figures(0)
0 References