Deep follow-up for gravitational-wave inference: a case study with GW151226

Abstract

New analyses of gravitational wave events raise questions about the nature of some events. For example, LIGO--Virgo--KAGRA initially determined GW151226 to be a merger with a mass-ratio q≈0.5 and effective inspiral spin eff≈ 0.2. However, recent works offer an alternative picture: GW151226 is a lower-mass-ratio event q ≈ 0.3 with slightly higher spin eff≈ 0.3. This discrepancy has been challenging to resolve as a wide range of differences are employed for each analysis. This work introduces a ``deep follow-up'' framework to efficiently compute the posterior odds between two different peaks in parameter space. In doing so, we aim to help resolve disputes about the true nature of gravitational-wave events associated with conflicting astrophysical interpretations. Our proposal is not a replacement for standard inference techniques; instead, our method provides a diagnostic tool to understand discrepancies between conflicting results. We demonstrate this method by studying three q-eff peaks proposed for GW151226. We find the (q0.5, eff0.2) interpretation is only slightly preferred over the (q0.3, eff0.3) hypothesis with a posterior odds of 1.70.4, suggesting that neither of the two peaks can be ruled out. We discuss strategies to produce more reliable parameter estimation studies in gravitational-wave astronomy.