Einstein@Home discovery of a Double-Neutron Star Binary in the PALFA   Survey

P. Lazarus; P. C. C. Freire; B. Allen; S. Bogdanov; A. Brazier; F.; Camilo; F. Cardoso; S. Chatterjee; J. M. Cordes; F. Crawford; J. S. Deneva,; R. Ferdman; J. W. T. Hessels; F. A. Jenet; C. Karako-Argaman; V. M. Kaspi; B.; Knispel; R. Lynch; J. van Leeuwen; E. Madsen; M. A. McLaughlin; C. Patel; S.; M. Ransom; P. Scholz; A. Seymour; X. Siemens; L. G. Spitler; I. H. Stairs; K.; Stovall; J. Swiggum; A. Venkataraman; W. W. Zhu

arXiv:1608.08211·astro-ph.HE·April 3, 2018

Einstein@Home discovery of a Double-Neutron Star Binary in the PALFA Survey

P. Lazarus, P. C. C. Freire, B. Allen, S. Bogdanov, A. Brazier, F., Camilo, F. Cardoso, S. Chatterjee, J. M. Cordes, F. Crawford, J. S. Deneva,, R. Ferdman, J. W. T. Hessels, F. A. Jenet, C. Karako-Argaman, V. M. Kaspi, B., Knispel, R. Lynch, J. van Leeuwen, E. Madsen

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TL;DR

This paper reports the discovery of a double-neutron star binary system through the PALFA survey, providing insights into neutron star masses, system eccentricity, and potential tests of general relativity.

Contribution

The discovery of PSR J1913+1102 as a new double-neutron star system with precise orbital measurements and implications for neutron star formation and gravitational tests.

Findings

01

Total system mass of 2.875 solar masses

02

Small orbital eccentricity indicating low supernova kick

03

Potential to test general relativity with future timing observations

Abstract

We report here the Einstein@Home discovery of PSR J1913+1102, a 27.3-ms pulsar found in data from the ongoing Arecibo PALFA pulsar survey. The pulsar is in a 4.95-hr double neutron star (DNS) system with an eccentricity of 0.089. From radio timing with the Arecibo 305-m telescope, we measure the rate of advance of periastron to be 5.632(18) deg/yr. Assuming general relativity accurately models the orbital motion, this corresponds to a total system mass of 2.875(14) solar masses, similar to the mass of the most massive DNS known to date, B1913+16, but with a much smaller eccentricity. The small eccentricity indicates that the second-formed neutron star (the companion of PSR J1913+1102) was born in a supernova with a very small associated kick and mass loss. In that case this companion is likely, by analogy with other systems, to be a light (1.2 solar mass) neutron star; the system would…

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