Author
Listed:
- M. Burgay
(Università degli Studi di Bologna, Dipartimento di Astronomia)
- N. D'Amico
(Università degli Studi di Cagliari, Dipartimento di Fisica
INAF—Osservatorio Astronomico di Cagliari, Loc. Poggio dei Pini)
- A. Possenti
(INAF—Osservatorio Astronomico di Cagliari, Loc. Poggio dei Pini
INAF—Osservatorio Astronomico di Bologna)
- R. N. Manchester
(CSIRO)
- A. G. Lyne
(University of Manchester, Jodrell Bank Observatory)
- B. C. Joshi
(University of Manchester, Jodrell Bank Observatory
National Center for Radio Astrophysics)
- M. A. McLaughlin
(University of Manchester, Jodrell Bank Observatory)
- M. Kramer
(University of Manchester, Jodrell Bank Observatory)
- J. M. Sarkissian
(CSIRO)
- F. Camilo
(Columbia University)
- V. Kalogera
(Northwestern University)
- C. Kim
(Northwestern University)
- D. R. Lorimer
(University of Manchester, Jodrell Bank Observatory)
Abstract
The merger1 of close binary systems containing two neutron stars should produce a burst of gravitational waves, as predicted by the theory of general relativity2. A reliable estimate of the double-neutron-star merger rate in the Galaxy is crucial in order to predict whether current gravity wave detectors will be successful in detecting such bursts. Present estimates of this rate are rather low3,4,5,6,7, because we know of only a few double-neutron-star binaries with merger times less than the age of the Universe. Here we report the discovery of a 22-ms pulsar, PSR J0737–3039, which is a member of a highly relativistic double-neutron-star binary with an orbital period of 2.4 hours. This system will merge in about 85 Myr, a time much shorter than for any other known neutron-star binary. Together with the relatively low radio luminosity of PSR J0737–3039, this timescale implies an order-of-magnitude increase in the predicted merger rate for double-neutron-star systems in our Galaxy (and in the rest of the Universe).
Suggested Citation
M. Burgay & N. D'Amico & A. Possenti & R. N. Manchester & A. G. Lyne & B. C. Joshi & M. A. McLaughlin & M. Kramer & J. M. Sarkissian & F. Camilo & V. Kalogera & C. Kim & D. R. Lorimer, 2003.
"An increased estimate of the merger rate of double neutron stars from observations of a highly relativistic system,"
Nature, Nature, vol. 426(6966), pages 531-533, December.
Handle:
RePEc:nat:nature:v:426:y:2003:i:6966:d:10.1038_nature02124
DOI: 10.1038/nature02124
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