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Gravitational Waves and Neutron Stars

Published online by Cambridge University Press:  12 April 2016

Bernard F. Schutz
Bernard F. Schutz*
Affiliation:
Albert Einstein Institute, Potsdam, Germany Cardiff University, Wales, [email protected]

Abstract

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The first generation of laser-interferomteric gravitational wave observatories will make intensive searches for gravitational radiation from spinning neutron stars. Sensitivity to a number of possible sources, including the Crab pulsar, will be better than any existing observational limits, and will improve dramatically over the next decade. This paper reviews these developments and expectations, and discusses ways in which pulsar radio astronomers and gravitational wave astronomers can benefit from one another’s work.

Type
Part 11. The Future – Where to go?
Information
International Astronomical Union Colloquium , Volume 177: Pulsar Astronomy - 2000 and Beyond , 2000 , pp. 727 - 732
Copyright
Copyright © Astronomical Society of the Pacific 2000

References

Bildsten, L. 1998, ApJ, 501, L89 Google Scholar
Blanchet, L., Damour, T., Iyer, B.R., et al. 1995, Phys Rev Lett, 74, 3515 Google Scholar
Brady, P.R., and Creighton, T., 1998, preprint, gr-qc/9812014.Google Scholar
Brady, P.R., Creighton, T., Cutler, C. and Schutz, B.F. 1998, Phys Rev, 57, 2101 Google Scholar
Danzmann, K. 1995 in Coccia, E., Pizzella, G., Ronga, F., eds., Gravitational Wave Experiments (World Scientific Publishing Co. Pte. Ltd., Singapore) 100 Google Scholar
Giazotto, A., 1995 in Coccia, E., Pizzella, G., Ronga, F., eds., Gravitational Wave Experiments (World Scientific Publishing Co. Pte. Ltd., Singapore) 86 Google Scholar
Helström, C.W. 1968 Statistical Theory of Signal Detection, 2nd ed. (Pergamon Press, London).Google Scholar
Jaranowski, P., Krolak, A., Schutz, B.F., 1998, Phys Rev, D5806, 3001 Google Scholar
Nicholson, D., Dickson, C.A., Watkins, W.J., et al. 1996, Physics Letters A, 218, 175 Google Scholar
Owen, B., Lindblom, L., Cutler, C., Schutz, B.F., Vecchio, A., Andersson, N. 1999, Phys Rev, D58, 084020Google Scholar
Papa, M.-A., & Schutz, B.F., in Gravitational Waves and Experimental Gravity (Proceedings of Moriond 1999) (Editions Frontieres, Orsay, 1999); gr-qc/9905018.Google Scholar
Raab, F.J. 1995 in Coccia, E., Pizzella, G., Ronga, F., eds., Gravitational Wave Experiments (World Scientific Publishing Co. Pte. Ltd., Singapore) 80.Google Scholar
Schutz, B.F., ed., 1989 Gravitational Wave Data Analysis (Kluwer, Dordrecht).Google Scholar
Schutz, B.F., 1991Data Processing Analysis and Storage for Interferometric Antennas” in The Detection of Gravitational Waves ed. Blair, D.G. (Cambridge University Press, Cambridge) 406452 Google Scholar
Schutz, B.F., in Davier, M., and Hello, P., Proceedings of Second Gravitational Wave Data Analysis Workshop (Editions Frontiers, Orsay, 1998), 113 Google Scholar
Strain, K.A., & Meers, B.J. 1991, Phys Rev, 66, 1391 Google Scholar
Taylor, J.H. 1994, Rev. Mod. Phys., 66, 711 Google Scholar
Tsubono, K., 1995, in Coccia, E., Pizzella, G., Ronga, F., eds., Gravitational Wave Experiments (World Scientific Publishing Co. Pte. Ltd., Singapore) 114.Google Scholar
van der Klis, M. 1998, Phys Scripta, T77, 69 Google Scholar