Mass Distribution and Maximum Mass of Neutron Stars: Effects of Orbital Inclination Angle

Author:

Rocha Lívia S.1ORCID,Horvath Jorge E.1ORCID,de Sá Lucas M.1ORCID,Chinen Gustavo Y.1ORCID,Barão Lucas G.1ORCID,de Avellar Marcio G. B.1ORCID

Affiliation:

1. Departamento de Astronomia, Instituto de Astronomia, Geofísica e Ciências Atmosféricas (IAG), Universidade de São Paulo, R. do Matão 1226, C. Universitária, São Paulo 05508-090, Brazil

Abstract

Matter at ultra-high densities finds a physical realization inside neutron stars. One key property is their maximum mass, which has far-reaching implications for astrophysics and the equation of state of ultra dense matter. In this work, we employ Bayesian analysis to scrutinize the mass distribution and maximum mass threshold of galactic neutron stars. We compare two distinct models to assess the impact of assuming a uniform distribution for the most important quantity, the cosine of orbital inclination angles (i), which has been a common practice in previous analyses. This prevailing assumption yields a maximum mass of 2.25 M⊙ (2.15–3.32 M⊙ within 90% confidence), with a strong peak around the maximum value. However, in the second model, which indirectly includes observational constraints of i, the analysis supports a mass limit of 2.56−0.58+0.87M⊙ (2σ uncertainty), a result that points in the same direction as some recent results gathered from gravitational wave observations, although their statistics are still limited. This work stresses the importance of an accurate treatment of orbital inclination angles, and contributes to the ongoing debate about the maximum neutron star mass, further emphasizing the critical role of uncertainties in the individual neutron star mass determinations.

Funder

FAPESP Agency

Capes Agency

CNPq

Publisher

MDPI AG

Subject

General Physics and Astronomy

Reference126 articles.

1. Pulsars;Hewish;Sci. Am.,1968

2. Strong-field gravity tests with the double pulsar;Kramer;Phys. Rev. X,2021

3. On super-novae;Baade;Proc. Natl. Acad. Sci. USA,1934

4. Neutron Star Models;Cameron;Astrophys. J.,1959

5. Evolution of 8–10 solar mass stars toward electron capture supernovae. I-Formation of electron-degenerate O+ NE+ MG cores;Nomoto;Astrophys. J.,1984

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