Evidence of Phase Transition from Binary Neutron Star Merger

Abstract: Binary neutron-star mergers offer crucial insights into the matter properties of neutron stars. We present direct evidence of phase transition on the observational signatures from such events. Our study employs a range of equations of states with hadron-quark phase transition surveying from Maxwell construction smoothened up to the Gibbs construction using a control parameter $\Delta p$. This smoothening parameter allows us to explore different mixed phases and analyse their direct impact on merger dynamics. Post-merger gravitational wave emissions reveal the expression of specific signatures in the spectogram and power spectral density, serving as a distinct signature of equations of state with mixed phases. We found additional peaks in power spectral density that were fully responsible from the post-merger remnant experiencing a phase transition. Alongside this signature, the nature of phase transition transition leaves specific imprints on the spectrogram, leading to a two-folded signature from gravitational wave analysis. Furthermore, we establish a direct correlation between our findings and the threshold mass for prompt collapse. Our analysis also provides key evidence against a Maxwell-type phase transition for GW170817 if the post-merger is believed to have experienced a prompt collapse into a black hole. We show that $\Delta p \gtrsim 0.04$ is required for such a scenario. Effects of $\Delta p$ have also been observed on the ejecta mass from the event, which can affect the kilonova afterglow.