new Monte Carlo radiative transfer simulation of cyclotron resonant scattering features | Monthly Notices of the Royal Astronomical Society | Oxford Academic

2022-07-22 21:56:06 By : Ms. Bella Yang

Sandeep Kumar, Suman Bala, Dipankar Bhattacharya, A new Monte Carlo radiative transfer simulation of cyclotron resonant scattering features, Monthly Notices of the Royal Astronomical Society, Volume 515, Issue 1, September 2022, Pages 914–927, https://doi.org/10.1093/mnras/stac1871

We present a new Monte Carlo radiative transfer code, which we have used to model the cyclotron line features in the environment of a variable magnetic field and plasma density. The code accepts an input continuum and performs only the line transfer by including the three cyclotron resonant processes (cyclotron absorption, cyclotron emission, cyclotron scattering). Subsequently, the effects of gravitational redshift and light bending on the emergent spectra are computed. We have applied our code to predict the observable spectra from three different emission geometries; (1) an optically thin slab near the stellar surface, (2) an accretion mound formed by the accumulation of the accreted matter, (3) an accretion column representing the zone of a settling flow on to the star. Our results show that the locally emergent spectra from the emission volume are significantly anisotropic. However, in the presence of strong light bending the anisotropy reduces considerably. This averaging also drastically reduces the strength of harmonics higher than second in the observable cyclotron spectra. We find that uniform field slabs produce line features that are too narrow, and mounds with large magnetic distortions produce features that are too wide compared to the average widths of the spectral features observed from various sources. The column with a gently varying (dipole) field produces widths in the intermediate range, similar to those observed.

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