J
2020
Three-dimensional general relativistic Poynting-Robertson effect. III. Static and nonspherical quadrupolar massive source
DE FALCO, Vittorio, Pavel BAKALA and Maurizio FALANGA
Basic information
Original name
Three-dimensional general relativistic Poynting-Robertson effect. III. Static and nonspherical quadrupolar massive source
Authors
DE FALCO, Vittorio (380 Italy), Pavel BAKALA (203 Czech Republic, belonging to the institution) and Maurizio FALANGA (756 Switzerland)
Edition
Physical Review D, US - Spojené státy americké, 2020, 1550-7998
Other information
Type of outcome
Článek v odborném periodiku
Field of Study
10308 Astronomy
Country of publisher
United States of America
Confidentiality degree
není předmětem státního či obchodního tajemství
RIV identification code
RIV/47813059:19630/20:A0000022
Organization unit
Institute of physics in Opava
Keywords in English
NO-HAIR THEOREM; CENTRIFUGAL FORCES; NEUTRON-STARS; FIELD; GEODESICS; EQUATIONS
Tags
International impact, Reviewed
Links
GA17-16287S, research and development project.
V originále
We investigate the three-dimensional (3D) motion of a test particle in the gravitational field generated by a nonspherical compact object endowed with a mass quadrupole moment, described by the Erez-Rosen metric, and a radiation field, including the general relativistic Poynting-Robertson (PR) effect, coming from a rigidly rotating spherical emitting source located outside of the compact object. We derive the equations of motion for test particles influenced by such radiation field, recovering the two-dimensional (2D) description, and the weak-field approximation. This dynamical system admits the existence of a critical hypersurface, region where gravitational and radiation forces balance. Selected test particle orbits for different set of input parameters are displayed. The possible configurations on the critical hypersurfaces can be either latitudinal drift toward the equatorial ring or suspended orbits. We discuss about the existence of multiple hypersurface solutions through a simple method to perform the calculations. We graphically prove also that the critical hypersurfaces are stable configurations within the Lyapunov theory.
Displayed: 28/12/2024 07:45