A new bump in the night: evidence of a new feature in the binary black hole mass distribution at 70~M from gravitational-wave observations
Abstract
We analyze the confident binary black hole (BBH) detections from the third Gravitational-Wave Transient Catalog (GWTC-3) with an alternative mass population model in order to capture features in the mass distribution beyond the Powerlaw + Peak model. We find that the peak of a second power law characterizes the 30-35~ M bump, such that the data marginally prefers a mixture of two power laws for the mass distribution of binary components over a Powerlaw + Peak model with a Bayes Factor 10B of 0.24. This result may imply that the 30-35~ M feature represents the onset of a second population of BBH mergers (e.g. from a dynamical formation channel) rather than a specific mass feature over a broader distribution. When an additional Gaussian bump is allowed within our power law mixture model, we find a new feature in the BH mass spectrum at 65-70~M (10B = 0.29 compared to Powerlaw + Peak). This new feature may be consistent with hierarchical mergers, and constitute 3\% of the BBH population. This model also recovers a maximum mass of 58+32-14~M for the second power law, consistent with the onset of a pair-instability supernova mass gap.
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