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Gravitational-radiation losses from the pulsar-white-dwarf binary PSR J1141-6545

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posted on 2024-07-26, 14:14 authored by N. D R Bhat, Matthew BailesMatthew Bailes, J. P W Verbiest
Pulsars in close binary systems with white dwarfs or other neutron stars make ideal laboratories for testing the predictions of gravitational radiation and self-gravitational effects. We report new timing measurements of the pulsar–white-dwarf binary PSR J1141–6545. The orbit is found to be decaying at a rate of 1.04±0.06 times the general relativistic prediction and the Shapiro delay is consistent with the orbital inclination angle derived from scintillation measurements. The system provides a unique testbed for tensor-scalar theories of gravity. Our measurements place stringent constraints in the theory space, with a limit of alpha02<2.1×10-5 for weakly nonlinear coupling and an asymptotic limit of alpha02<3.4×10-6 for strongly nonlinear coupling (where alpha0 is the linear coupling strength of matter to an underlying scalar field), which is nearly 3 times smaller than the Cassini bound (alpha02[approximate]10-5).

Funding

Commonwealth Scientific and Industrial Research Organisation

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ISSN

1550-7998

Journal title

Physical Review D - Particles, Fields, Gravitation and Cosmology

Volume

77

Issue

12

Article number

article no. 124017

Pagination

124017-

Publisher

American Physical Society

Copyright statement

Copyright © 2008 American Physical Society. The published version is reproduced with the permission of the publisher for non-commercial purposes only.

Language

eng

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