A Double-Pulsar System: A Rare Laboratory for Relativistic Gravity and Plasma Physics

A Double-Pulsar System: A Rare Laboratory for Relativistic Gravity and Plasma Physics

The clocklike properties of pulsars moving in the gravitational fields of their unseen neutron-star companions have allowed unique tests of general relativity and provided evidence for gravitational radiation. We report here the detection of the 2.8-second pulsar J0737-3039B as the companion to the...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2004-02, Vol.303 (5661), p.1153-1157
Hauptverfasser: Lyne, A. G., Burgay, M., Kramer, M., Possenti, A., Manchester, R. N., Camilo, F., McLaughlin, M. A., Lorimer, D. R., D'Amico, N., Joshi, B. C., Reynolds, J., Freire, P. C. C.
Format: Artikel
Sprache:eng
Schlagworte:
Astronomy
Average linear density
Earth, ocean, space
Exact sciences and technology
Flux density
General relativity
Gravity
Late stages of stellar evolution (including black holes)
Magnetospheres
Mass
Neutron stars
Observation
Observations
Orbits
Periastron
Physics
Plasma physics
Pulsars
Relativity (Physics)
Rotation
Scientific Concepts
Stars
Testing
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Zusammenfassung:The clocklike properties of pulsars moving in the gravitational fields of their unseen neutron-star companions have allowed unique tests of general relativity and provided evidence for gravitational radiation. We report here the detection of the 2.8-second pulsar J0737-3039B as the companion to the 23-millisecond pulsar J0737-3039A in a highly relativistic double neutron star system, allowing unprecedented tests of fundamental gravitational physics. We observed a short eclipse of J0737-3039A by J0737-3039B and orbital modulation of the flux density and the pulse shape of J0737-3039B, probably because of the influence of J0737-3039A's energy flux on its magnetosphere. These effects will allow us to probe magneto-ionic properties of a pulsar magnetosphere.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1094645