Stationary Electromagnetic Fields of a Slowly Rotating Magnetized Neutron Star in General Relativity

, &
Foundations of Physics 31 (7):1051-1065 (2001)
  Copy   BIBTEX

Abstract

Following the general formalism presented by Rezzolla, Ahmedov and Miller, (1) we here derive analytic solutions of the electromagnetic fields equations in the internal and external background spacetime of a slowly rotating highly conducting magnetized neutron star. The star is assumed to be isolated and in vacuum, with a dipolar magnetic field not aligned with the axis of rotation. Our results indicate that the electromagnetic fields of a slowly rotating neutron star are modified by general relativistic effects arising from both the monopolar and the dipolar parts of the gravitational field. The results presented here differ from the ones discussed by Rezzolla, Ahmedov and Miller (1) mainly in that we here consider the interior magnetic field to be dipolar with the same radial dependence as the external one. While this assumption might not be a realistic one, it should be seen as the application of our formalism to a case often discussed in the literature

Categories

Keywords

Reprint years

DOI

10.1023/a:1017574223222

Other Versions

No versions found

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 101,505

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Concerning Measurement of Gravitomagnetism in Electromagnetic Systems.B. J. Ahmedov & N. I. Rakhmatov - 2003 - Foundations of Physics 33 (4):625-639.
Do Neutron Star Gravitational Waves Carry Superfluid Imprints?G. L. Comer - 2002 - Foundations of Physics 32 (12):1903-1942.
A New Foundation for Physics.Jim Bourassa & David Thomson - 2006 - Infinite Energy Magazine (69):34.
Semiclassical Analysis of the Interaction of the Magnetic Quadrupole Moment of a Neutral Particle with Axial Electric Fields in a Uniformly Rotating Frame.S. L. R. Vieira & K. Bakke - 2020 - Foundations of Physics 50 (7):735-748.
The analog of electric and magnetic fields in stationary gravitational systems.Franz Embacher - 1984 - Foundations of Physics 14 (8):721-738.
Spinor Matter in a Gravitational Field: Covariant Equations à la Heisenberg. [REVIEW]James P. Crawford - 1998 - Foundations of Physics 28 (3):457-470.
A Case for an Empirically Demonstrable Notion of the Vacuum in Quantum Electrodynamics Independent of Dynamical Fluctuations.Mario Bacelar Valente - 2011 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 42 (2):241-261.
The motion of charged test particles in general relativity.Peter A. Hogan & Ivor Robinson - 1985 - Foundations of Physics 15 (5):617-627.
New exact solutions of Einstein's field equations: Gravitational force can also be repulsive! [REVIEW]Werner Dietz - 1988 - Foundations of Physics 18 (5):529-547.
On classical and quantum relativistic dynamics.F. Reuse - 1979 - Foundations of Physics 9 (11-12):865-882.

Analytics

Added to PP
2013-11-22

Downloads
83 (#253,185)

6 months
8 (#594,873)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references