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arXiv:2411.01755 [astro-ph.HE]AbstractReferencesReviewsResources

Revisiting Bondi-Hoyle-Lyttleton accretion in binary systems

Emilio Tejeda, Jesús A. Toalá

Published 2024-11-04Version 1

The Bondi-Hoyle-Lyttleton (BHL) accretion model is widely used to describe how a compact object accretes material from a companion's stellar wind in binary systems. However, this classical model becomes inaccurate when the wind velocity ($v_\mathrm{w}$) is comparable to or less than the orbital velocity ($v_\mathrm{o}$), predicting nonphysical accretion efficiencies above unity. This limits its applicability to systems with low wind-to-orbital velocity ratios ($w= v_\mathrm{w}/v_\mathrm{o} \leq 1$), such as symbiotic systems. We revisit the BHL model and introduce a geometric correction factor that accounts for the varying orientation of the accretion cylinder relative to the wind direction. This correction ensures physically plausible accretion efficiencies ($\eta\leq 1$) for all $w$ in circular orbits. Our modified model naturally predicts the flattening of the accretion efficiency observed in numerical simulations for $w<1$, without the need for ad hoc adjustments. We also peer into the implications of our model for the less-explored case of eccentric orbits, highlighting the key role of the geometric correction factor in shaping the accretion process. We compare our predictions with numerical simulations, finding good agreement for a wide range of parameters. Applications to the symbiotic star R Aqr and the X-ray binary LS 5039 are presented. This improved model offers a more accurate description of wind accretion in binary systems, with implications for stellar evolution, population synthesis, and observational data interpretation.

Comments: 15 pages, 2 Tables, 10 Figures; submitted to ApJ (comments are welcome)
Categories: astro-ph.HE, astro-ph.SR
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