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Strong-field Gravity Tests with the Double Pulsar

Authors :
Kramer, M.
Stairs, I. H.
Manchester, R. N.
Wex, N.
Deller, A. T.
Coles, W. A.
Ali, M.
Burgay, M.
Camilo, F.
Cognard, I.
Damour, T.
Desvignes, G.
Ferdman, R. D.
Freire, P. C. C.
Grondin, S.
Guillemot, L.
Hobbs, G. B.
Janssen, G.
Karuppusamy, R.
Lorimer, D. R.
Lyne, A. G.
McKee, J. W.
McLaughlin, M.
Muench, L. E.
Perera, B. B. P.
Pol, N.
Possenti, A.
Sarkissian, J.
Stappers, B. W.
Theureau, G.
Source :
Phys. Rev. X 11, 041050 (2021)
Publication Year :
2021

Abstract

Continued observations of the Double Pulsar, PSR J0737-3039A/B, consisting of two radio pulsars (A and B) that orbit each other with a period of 2.45hr in a mildly eccentric (e=0.088) binary system, have led to large improvements in the measurement of relativistic effects in this system. With a 16-yr data span, the results enable precision tests of theories of gravity for strongly self-gravitating bodies and also reveal new relativistic effects that have been expected but are now observed for the first time. These include effects of light propagation in strong gravitational fields which are currently not testable by any other method. We observe retardation and aberrational light-bending that allow determination of the pulsar's spin direction. In total, we have detected seven post-Keplerian (PK) parameters, more than for any other binary pulsar. For some of these effects, the measurement precision is so high that for the first time we have to take higher-order contributions into account. These include contributions of A's effective mass loss (due to spin-down) to the observed orbital period decay, a relativistic deformation of the orbit, and effects of the equation of state of super-dense matter on the observed PK parameters via relativistic spin-orbit coupling. We discuss the implications of our findings, including those for the moment of inertia of neutron stars. We present the currently most precise test of general relativity's (GR's) quadrupolar description of gravitational waves, validating GR's prediction at a level of $1.3 \times 10^{-4}$ (95% conf.). We demonstrate the utility of the Double Pulsar for tests of alternative theories by focusing on two specific examples and discuss some implications for studies of the interstellar medium and models for the formation of the Double Pulsar. Finally, we provide context to other types of related experiments and prospects for the future.<br />Comment: 56 pages, 23 Figures. Published by Physical Review X. Uploaded ArXiv version is authors' (pre-proof) version with abbreviated abstract. Resubmission for updated acknowledgement information. For final published version see https://link.aps.org/doi/10.1103/PhysRevX.11.041050

Details

Database :
arXiv
Journal :
Phys. Rev. X 11, 041050 (2021)
Publication Type :
Report
Accession number :
edsarx.2112.06795
Document Type :
Working Paper
Full Text :
https://doi.org/10.1103/PhysRevX.11.041050