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Accretion disc around black hole in Einstein-SU(N) non-linear sigma model

G. AbbasDepartment of Mathematics, The Islamia University of Bahawalpur, Bahawalpur, PakistanHamza RehmanDepartment of Mathematics, The Islamia University of Bahawalpur, Bahawalpur, PakistanMuhammad UsamaDepartment of Mathematics, The Islamia University of Bahawalpur, Bahawalpur, PakistanTao ZhuInstitute for Theoretical Physics and Cosmology, Zhejiang University of Technology, Hangzhou, 310023, China
2023en
ABI

Аннотация

Abstract The accretion of matter onto celestial bodies like black holes and neutron stars is a natural phenomenon that releases up to $$40\%$$ <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"> <mml:mrow> <mml:mn>40</mml:mn> <mml:mo>%</mml:mo> </mml:mrow> </mml:math> of the matter’s rest-mass energy, which is considered a source of radiation. In active galactic nuclei and X-ray binaries, huge luminosities are observed as a result of accretion. Using isothermal fluid, we examine the accretion and geodesic motion of particles in the vicinity of a spherically symmetric black hole spacetime in the Einstein- SU ( N ) non-linear sigma model. In the accretion process, the disk-like structure is produced by the geodesic motion of particles near the black hole. We determine the innermost stable circular orbit, energy flux, radiation temperature, and radioactive efficiency numerically. In the equatorial plane, we investigate the mobility of particles with stabilities that form circular orbits. We examine perturbations of a test particle by using restoring forces and particle oscillations in the vicinity of the black hole. We analyze the maximum accretion rate and critical flow of the fluid. Our findings demonstrate how parameter N influences the circular motion of a test particle as well as the maximum accretion rate of the black hole in the Einstein- SU ( N ) non-linear sigma model.

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