Recently, the gravitational wave (GW) event for black hole (BH)-BH mergers, S241125n, has been reported to be associated with a short gamma-ray burst (GRB) and X-ray afterglow emission. Such an association could potentially unveil the environments of mergers and provide attractive targets for multi-messenger observations. We summarize these observations and model it as a binary BH merger occurring within an active galactic nucleus (AGN), where the merger remnant accretes disk material at hyper-Eddington rates. The resulting jet could lead to the GRB associated with the GW event. The GRB, detected by Swift-BAT, exhibits a Comptonized spectrum with an unusually soft photon index, which is consistent with emission from the jet interacting the emission associated with the dense AGN disk environment. Its X-ray afterglow shows an unusually hard spectrum, indicating possible strong absorption by a high column density typical of AGN disks. We highlight the importance of identifying the host galaxy and conducting more sensitive infrared observations to test the model.
Zhang et al. (Thu,) studied this question.
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