MINISTR ŠKOLSTVÍ KE SPOLUPRÁCI ČR S SÚJV
INTEREST JINR, Wave 6
The passing of Ivo Zvára
Call for the projects solved in collaboration with JINR (Projects 3+3) 
Call for the Grants of the Plenipotentiary of the Government of the Czech Republic in JINR
MEYS
22 October 2021
Czech Ambassador in Russia visited JINR
INTEREST JINR, Wave 5
Russia Visa Centre
9 August 2021
Working Stays CR - JINR 2022Exact Solution for a Black Hole Embedded in a Nonstatic Dust-filled Universe
Author
| Kopteva E. | Silesian University in Opava, Czech Republic |
| Jalůvková Pavlína, Mgr. | Faculty of Philosophy and Science SU in Opava |
| Bormotova Iryna, Mgr. | Faculty of Philosophy and Science SU in Opava, JINR Dubna |
| Stuchlik Z. | Silesian University in Opava, Czech Republic |
Year
2018
Scientific journal
Astrophysical Journal, 866 (2), 98
Web
Abstract
An exact solution of the Lemaitre-Tolman-Bondi class is investigated as a possible model of the Schwarzschild-like black hole embedded in a nonstatic dust-filled universe for the three types of spatial curvature. The solution is obtained in comoving coordinates by means of the mass function method. It is shown that the central part of space contains a Schwarzschild-like black hole. The R-T structure of the resulting spacetime is built. It is shown that the solution includes both the Schwarzschild and Friedmann solutions as its natural limits. The geodesic equations for test particles are analyzed. The particle observable velocities are found. The trajectories of the test particles are built from the point of view of both comoving and distant observers. For the distant observer, the results coincide with the Schwarzschild picture within a second-order accuracy near the symmetry center.
Cite article as:
E. Kopteva, P. Jalůvková, I. Bormotova, Z. Stuchlik, "Exact Solution for a Black Hole Embedded in a Nonstatic Dust-filled Universe", Astrophysical Journal, 866 (2), 98 (2018)