Piling up in the darkness: Features of the BBH mass distribution from isolated binaries
Abstract
After the third LIGO--Virgo--KAGRA observing run, the number of detected binary black hole (BBH) mergers became sufficient to identify statistical features of the population. We explore how different prescriptions for the final fate of massive stars and key binary-evolution processes shape isolated binaries and their remnants. Using sevn, we evolved 107 binaries across 15 metallicities, 3 core-collapse supernova models, 4 PPISN models, and 6 common-envelope (CE) prescriptions, for a total of 990 runs (9.9 × 109 systems). Both single- and binary-star physics shape the BH mass distribution: single-star processes control the high-mass tail (M BH ≥ 45M), while binary evolution produces pile-ups in specific intervals. In particular, the bump at 35 M, often attributed to PPISNe, also emerges from binaries evolving only through stable mass transfer, without CE. Finally, we test a top-heavy IMF, finding it boosts merger numbers and alters the abundance of systems with a given primary BH mass.
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