Litcius/Paper detail

Does Matter Matter? Using the Mass Distribution to Distinguish Neutron Stars and Black Holes

Maya Fishbach, Reed Essick, Daniel E. Holz

2020The Astrophysical Journal Letters65 citationsDOIOpen Access PDF

Abstract

Abstract Gravitational-wave detectors have opened a new window through which we can observe black holes (BHs) and neutron stars (NSs). Analyzing the 11 detections from LIGO/Virgo’s first gravitational-wave catalog, GWTC-1, we investigate whether the power-law fit to the BH mass spectrum can also accommodate the binary neutron star (BNS) event GW170817, or whether we require an additional feature, such as a mass gap in between the NS and BH populations. We find that with respect to the power-law fit to binary black hole (BBH) masses, GW170817 is an outlier at the 0.13% level, suggesting a distinction between NS and BH masses. A single power-law fit across the entire mass range is in mild tension with (a) the detection of one source in the BNS mass range (∼1–2.5 M ⊙ ), (b) the absence of detections in the “mass-gap” range (∼2.5–5 M ⊙ ), and (c) the detection of 10 sources in the BBH mass range (≳5 M ⊙ ). Instead, the data favor models with a feature between NS and BH masses, including a mass gap (Bayes factor of 4.6) and a break in the power law, with a steeper slope at NS masses compared to BH masses (91% credibility). We estimate the merger rates of compact binaries based on our fit to the global mass distribution, finding and . We conclude that, even in the absence of any prior knowledge of the difference between NSs and BHs, the gravitational-wave data alone already suggest two distinct populations of compact objects.

Topics & Concepts

PhysicsAstrophysicsNeutron starMass distributionBinary black holeBlack hole (networking)Range (aeronautics)StarsBinary numberStellar black holeBinary starLow MassAstronomyIntermediate-mass black holeStellar massDetectorStar (game theory)Event (particle physics)Mass ratioX-ray binaryNeutronMass segregationMass gapSolar massBinary systemPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeAstrophysical Phenomena and Observations