Radiative acceleration of relativistic jets from accretion discs around black holes

Radiative acceleration of relativistic jets from accretion discs around black holes

Matter falling onto black holes, {also called} accretion discs, emit intense high-energy radiation. Accretion discs during {hard to hard intermediate} spectral states also emit bipolar outflows. Radiation drag was supposed to impose the upper limit on the terminal speed. It was later shown that a ra...

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Veröffentlicht in:arXiv.org 2024-10
Hauptverfasser: Chattopadhyay, Indranil, Raj Kishor Joshi, Debnath, Sanjit, Tripathi, Priyesh Kumar, Momd Saleem Khan
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Accretion disks
Black holes
Jets
Relativistic effects
Spectral emittance
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Zusammenfassung:Matter falling onto black holes, {also called} accretion discs, emit intense high-energy radiation. Accretion discs during {hard to hard intermediate} spectral states also emit bipolar outflows. Radiation drag was supposed to impose the upper limit on the terminal speed. It was later shown that a radiation field around an advective accretion disc imposes no upper limit on speed, about a few hundred of Schwarzschild radius from the disc surface. We {study radiatively driven electron-proton and electron-positron jets, for gemeotrically thick and slim transonic discs} by using numerical simulation. We show that pair-dominated jets can reach ultra-relativistic speeds by radiation driving. We also discuss at what limits radiative acceleration may fail.
ISSN:2331-8422