On the orbital period change of the binary pulsar PSR 1913 + 16

Details On the orbital period change of the binary pulsar PSR 1913 + 16 On the orbital period change of the binary pulsar PSR 1913 + 16

Jan 1991

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991apj...366..501d&link_type=abstract

Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 366, Jan. 10, 1991, p. 501-511.

Physics

190

Binary Stars, Gravitational Effects, Pulsars, Stellar Motions, Stellar Orbits, Acceleration (Physics), Milky Way Galaxy, Periodic Variations, Solar Gravitation, Stellar Mass Ejection, Gravitation, Pulsars, Relativity, Stars: Binaries, Stars: Stellar Dynamics

Scientific paper

We reexamine the theoretical significance of the raw observational parameter called the "rate of orbital period change," Pṡobs, of the binary pulsar PSR 1913+16. We show that the current precision (˜0.8%) on the determination of Pṡobs makes it necessary to take explicitly into account the effects of the galactic accelerations of the pulsar and the Sun, and that of the proper motion of the pulsar. Several other possible contributions to Pṡobs are (re)examined and found negligible. As the value of the galactic contribution to Pṡb/Pb depends explicitly on the distance to the pulsar, say d, we have been led to reexamine the determination of d from dispersion measurements. We find that recent progress in H I absorption measurements in the first galactic longitude quadrant allows one to constrain the mean electron density along the line of sight to PSR 1913+ 16 (1 = 50°) to the range ne(50°) = ([6.39±0.93] [R0/1 kpc])-1 cm-3, where R0 is the galactocentric distance of the Sun. This value for ne is smaller than the "standard" one and leads to a galactic-reduced distance to PSR 1913+16, d/R0= 1.08±0.16. After subtraction of the galactic effects, the latest experimental results yield a 0.8 % confirmation of the general relativistic prediction:Pṡobs-gal/b / PṡGR/b = - 1.0081±0.0022(galactic) ±0.0076(observational). Alternatively, this result yields an upper bound to the rate of change of Newton's gravitational constant, Gṡ/G = (1.10±1.07) × 10-11 yr-1, which, in the long term, may be limited to the ±3 × 10-12 yr-1 level of precision because of the uncertainties in the values of the galactic constants, R0 and υ0.

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