Causal Nature and Dynamics of Trapping Horizons in Black Hole Collapse
Autor: | Helou, Alexis, Musco, Ilia, Miller, John C. |
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Rok vydání: | 2016 |
Předmět: | |
Zdroj: | Classical and Quantum Gravity 34, 135012 (2017) |
Druh dokumentu: | Working Paper |
DOI: | 10.1088/1361-6382/aa6d8f |
Popis: | In calculations of gravitational collapse to form black holes, trapping horizons (foliated by marginally trapped surfaces) make their first appearance either within the collapsing matter or where it joins on to a vacuum exterior. Those which then move outwards with respect to the matter have been proposed for use in defining black holes, replacing the global concept of an "event horizon" which has some serious drawbacks for practical applications. We here present results from a study of the properties of both outgoing and ingoing trapping horizons, assuming strict spherical symmetry throughout. We have investigated their causal nature (i.e. whether they are spacelike, timelike or null), making contact with the Misner-Sharp- Hernandez formalism, which has often been used for numerical calculations of spherical collapse. We follow two different approaches, one using a geometrical quantity related to expansions of null geodesic congruences, and the other using the horizon velocity measured with respect to the collapsing matter. After an introduction to these concepts, we then implement them within numerical simulations of stellar collapse, revisiting pioneering calculations from the 1960s where some features of the emergence and subsequent behaviour of trapping horizons could already be seen. Our presentation here is aimed firmly at "real world" applications of interest to astrophysicists and includes the effects of pressure, which may be important for the asymptotic behaviour of the ingoing horizon. Comment: 33 pages, 11 figures |
Databáze: | arXiv |
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