The first direct detection of gravitational waves may be made through
observations of pulsars. The principal aim of pulsar timing array projects
being carried out worldwide is to detect ultra-low frequency gravitational
waves (f ~ 10^-9 to 10^-8 Hz). Such waves are expected to be caused by
coalescing supermassive binary black holes in the cores of merged galaxies. It
is also possible that a detectable signal could have been produced in the
inflationary era or by cosmic strings. In this paper we review the current
status of the Parkes Pulsar Timing Array project (the only such project in the
Southern hemisphere) and compare the pulsar timing technique with other forms
of gravitational-wave detection such as ground- and space-based interferometer
systems.Comment: Accepted for publication in PAS

A. Hotan

A. Lommen

Boyle

Caldwell

D. J. Champion

D. Yardley

Damour

Enoki

F. Jenet

G. B. Hobbs

Hobbs

J. Khoo

J. P. W. Verbiest

J. Reynolds

J. Sarkissian

Janssen

K. J. Lee

L. Kedziora-Chudczer

Lommen

Lorimer

M. Bailes

Maggiore

Manchester

Matsakis

McHugh

N. D. R. Bhat

Pitkin

R. N. Manchester

S. Burke-Spolaor

S. To

Sazhin

Stappers

Stinebring

Turner

W. Coles

W. van Straten

X. P. You

English

arXiv

The first direct detection of gravitational waves may be made through observations of pulsars. The principal aim of pulsar timing-array projects being carried out worldwide is to detect ultra-low frequency gravitational waves (f ~10-9-10-8 Hz). Such waves are expected to be caused by coalescing supermassive binary black holes in the cores of merged galaxies. It is also possible that a detectable signal could have been produced in the inflationary era or by cosmic strings. In this paper, we review the current status of the Parkes Pulsar Timing Array project (the only such project in the Southern hemisphere) and compare the pulsar timing technique with other forms of gravitational-wave detection such as ground- and space-based interferometer system

Hobbs, G.

Bailes, M.

Bhat, N.

Burke-Spolaor, S.

Champion, D.

Coles, W.

Hotan, Aidan

espace@Curtin

Gravitational-Wave Detection Using Pulsars: Status of the Parkes Pulsar Timing Array Project

Hobbs GB, Bailes M, Bhat NDR, et al. Gravitational-Wave Detection Using Pulsars: Status of the Parkes Pulsar Timing Array Project. Publications of the Astronomical Society of Australia. 2009;26(2):103-109.AbstractThe first direct detection of gravitational waves may be made through observations of pulsars. The principal aim of pulsar timing-array projects being carried out worldwide is to detect ultra-low frequency gravitational waves (f ∼ 10−9–10−8 Hz). Such waves are expected to be caused by coalescing supermassive binary black holes in the cores of merged galaxies. It is also possible that a detectable signal could have been produced in the inflationary era or by cosmic strings. In this paper, we review the current status of the Parkes Pulsar Timing Array project (the only such project in the Southern hemisphere) and compare the pulsar timing technique with other forms of gravitational-wave detection such as ground- and space-based interferometer systems.</jats:p

Hobbs, G. B.

Bhat, N. D. R.

Champion, D. J.

Hotan, A.

Jenet, F.

Kedziora-Chudczer, L.

Khoo, J.

Lee, K. J.

Lommen, A.

Manchester, R. N.

Reynolds, J.

Sarkissian, J.

van Straten, W.

To, S.

Verbiest, Joris 

Yardley, D.

You, X. P.

Publications at Bielefeld University

The first direct detection of gravitational waves may be made through observations of pulsars. The principal aim of pulsar timing-array projects being carried out worldwide is to detect ultra-low frequency gravitational waves (f similar to 10(-9)-10(-8) Hz). Such waves are expected to be caused by coalescing supermassive binary black holes in the cores of merged galaxies. It is also possible that a detectable signal could have been produced in the inflationary era or by cosmic strings. In this paper, we review the current status of the Parkes Pulsar Timing Array project (the only such project in the Southern hemisphere) and compare the pulsar timing technique with other forms of gravitational-wave detection such as ground-and space-based interferometer systems.Astronomy &amp; AstrophysicsSCI(E)35ARTICLE2103-1092

Verbiest, J. P. W.

Institutional Repository of Peking University

Publications of the Astronomical Society of Australia

Gravitational-Wave Detection Using Pulsars: Status of the Parkes Pulsar   Timing Array Project

Crossref

https://espace.curtin.edu.au/bitstream/20.500.11937/17672/2/134468_17430_54604-1.pdf

Gravitational wave detection using pulsars: status of the Parkes Pulsar
  Timing Array project

Gravitational wave detection using pulsars: status of the Parkes Pulsar Timing Array project

Abstract

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