Recurrence of geodesics in a black-hole–disc field
Suková, P.; Semerák, O.
Processes around astrophysical black holes are usually modeled with test (nongravitating)
matter and fields. However, the very fact that the holes are “visible” implies that some
matter has to be present there. Even if very thin, it can influence the metric, mainly in higher derivatives,
which should in turn affect its own behaviour, as well as motion of further (test) satellites. In
particular, the geodesic dynamics, integrable in the fields of isolated stationary black holes, should
become chaotic. Here we consider exact static, axially and reflection- symmetric space-times of a
Schwarzschild black hole surrounded by a thin disc or ring, and examine how the presence of the
additional source affects the dynamics of free test particles using recurence analysis.
type: | inproceedings |
volume: | 1458 |
pages: | 523-526 |
year: | 2012 |
month: | 7 |
editor: | J. Beltrán Jiménez, J. A. Ruiz Cembranos, A. Dobado, A. López Maroto, A. De la Cruz Dombriz |
publisher: | AIP |
note: | ISBN: 978-0-7354-1060-2 |
grants: | Current problems of gravitation, general relativity and relativistic astrophysics, GAČR 202/09/0772; 2009-2013; hlavní řešitel: Jiří BičákGeneral relativity and its applications in astrophysics and cosmology, GAČR 205/09/H033; 2009-2012; hlavní řešitel: Oldřich Semerák, doktorandský grantStudium astrofyzikálních důsledků obecné teorie relativity; 2011-2013; řešitelé: Petra Suková, Pavel Čížek, Kamil Daněk, Milan ŠrámekFyzikální studium objektů a procesů ve sluneční soustavě a v astro-fyzikálních systémech, výzkumný záměr MSM0021620860; 2007-2013; hlavní řešitel: Jiří BičákAktuální problémy teoretické fyziky, astronomie a astrofyziky; 2011; řešitel: Oldřich Semerák |