Coupling of radiation and magnetospheric accretion flow in ULX pulsars: radiation pressure and photon escape time

Autor: Flexer, Caitlyn, Mushtukov, Alexander A.
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: The accretion flow within the magnetospheric radius of bright X-ray pulsars can form an optically thick envelope, concealing the central neutron star from the distant observer. Most photons are emitted at the surface of a neutron star and leave the system after multiple reflections by the accretion material covering the magnetosphere. Reflections cause momentum to be transferred between photons and the accretion flow, which contributes to the radiative force and should thus influence the dynamics of accretion. We employ Monte Carlo simulations and estimate the acceleration along magnetic field lines due to the radiative force as well as the radiation pressure across magnetic field lines. We demonstrate that the radiative acceleration can exceed gravitational acceleration along the field lines, and similarly, radiation pressure can exceed magnetic field pressure. Multiple reflections of X-ray photons back into the envelope tend to amplify both radiative force along the field lines and radiative pressure. We analyze the average photon escape time from the magnetosphere of a star and show that its absolute value is weakly dependent on the magnetic field strength of a star and roughly linearly dependent on the mass accretion rate being $\sim 0.1\,{\rm s}$ at $\dot{M}\sim 10^{20}\,{\rm g\,s^{-1}}$. At high mass accretion rates, the escape time can be longer than free-fall time from the inner disc radius.
Comment: accepted for publication MNRAS, 9 pages, 6 figures
Databáze: arXiv