Bayesian evidence for two peaks in the sound speed in cold dense QCD

Abstract

I show that in addition to the well-known peak inside massive neutron stars, the sound speed in cold dense QCD matter likely exhibits another peak above neutron star densities before it asymptotes to cs=Cs=1/3. Based on the framework reported in arxiv:2408.16738, this approach does not rely on any assumption about the ultra-dense matter not realized in nature. Current multimessenger observation of neutron stars favors the two-peak scenario with a Bayes factor 5.1-0.7+0.9, where the uncertainties are systematics due to models of neutron star inner cores. This evidence grows to 27-8+11 if the 2.6M component of GW190814 is a neutron star. The trough in Cs separating the two peaks is inferred to be below 0.05+0.04-0.02 (at the 50\% level) if 2.6M neutron stars exist. The second peak above 1/3 beyond baryon chemical potential μB=1.6-1.9 GeV most likely signals non-perturbative effects in cold quark matter, for instance color superconductivity.

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