Astrometric and timing effects of gravitational waves

被引:12
作者
Schutz, Bernard F. [1 ]
机构
[1] Albert Einstein Inst, D-14424 Potsdam, Germany
来源
RELATIVITY IN FUNDAMENTAL ASTRONOMY: DYNAMICS, REFERENCE FRAMES, AND DATA ANALYSIS | 2010年 / 261期
关键词
gravitational waves; gravitational lensing; astrometry; pulsars: general;
D O I
10.1017/S1743921309990457
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Gravitational wave detection can be done by precision timing of millisecond pulsars, and (with less likelihood) by precision astrometry on distant objects whose light or radio waves pass through gravitational waves on their way to our observatories. Underlying both of these is the relatively simple theory of light propagation in spacetimes with gravitational waves, which is also the basis of interferometric gravitational wave detectors. I review this theory and apply it to the timing and astrometric methods of detection. While pulsar timing might even be the first way that we directly detect gravitational waves, light deflection by gravitational waves seems out of reach.
引用
收藏
页码:234 / 239
页数:6
相关论文
共 16 条
  • [1] LIGO: the Laser Interferometer Gravitational-Wave Observatory
    Abbott, B. P.
    Abbott, R.
    Adhikari, R.
    Ajith, P.
    Allen, B.
    Allen, G.
    Amin, R. S.
    Anderson, S. B.
    Anderson, W. G.
    Arain, M. A.
    Araya, M.
    Armandula, H.
    Armor, P.
    Aso, Y.
    Aston, S.
    Aufmuth, P.
    Aulbert, C.
    Babak, S.
    Baker, P.
    Ballmer, S.
    Barker, C.
    Barker, D.
    Barr, B.
    Barriga, P.
    Barsotti, L.
    Barton, M. A.
    Bartos, I.
    Bassiri, R.
    Bastarrika, M.
    Behnke, B.
    Benacquista, M.
    Betzwieser, J.
    Beyersdorf, P. T.
    Bilenko, I. A.
    Billingsley, G.
    Biswas, R.
    Black, E.
    Blackburn, J. K.
    Blackburn, L.
    Blair, D.
    Bland, B.
    Bodiya, T. P.
    Bogue, L.
    Bork, R.
    Boschi, V.
    Bose, S.
    Brady, P. R.
    Braginsky, V. B.
    Brau, J. E.
    Bridges, D. O.
    [J]. REPORTS ON PROGRESS IN PHYSICS, 2009, 72 (07)
  • [2] VIRGO: a large interferometer for Gravitational Wave detection started its first scientific run
    Acernese, F.
    Alshourbagy, M.
    Amico, P.
    Antonucci, F.
    Aoudia, S.
    Astone, P.
    Avino, S.
    Baggio, L.
    Barone, F.
    Barsotti, L.
    Barsuglia, M.
    Bauer, Th. S.
    Bigotta, S.
    Birindelli, S.
    Bizouard, M.
    Boccara, C.
    Bondu, F.
    Bosi, L.
    Braccini, S.
    Bradaschia, C.
    Brillet, A.
    Brisson, V.
    Buskulic, D.
    Cagnoli, G.
    Calloni, E.
    Campagna, E.
    Cavalier, F.
    Cavalieri, R.
    Cella, G.
    Cesarini, E.
    Chassande-Mottin, E.
    Clapson, A. -C.
    Cleva, F.
    Coccia, E.
    Corda, C.
    Corsi, A.
    Cottone, F.
    Coulon, J. -P.
    Cuoco, E.
    D'Antonio, S.
    Dan, A.
    Dattilo, V.
    Davier, M.
    De Rosa, R.
    Del Prete, M.
    Di Fiore, L.
    Di Lieto, A.
    Di Virgilio, A.
    Dujardin, B.
    Evans, M.
    [J]. TAUP2007: TENTH INTERNATIONAL CONFERENCE ON TOPICS IN ASTROPARTICLE AND UNDERGROUND PHYSICS, 2008, 120
  • [3] [Anonymous], 2009, A first course in General Relativity
  • [4] [Anonymous], NEW ASTRONOMY REV
  • [5] *BBO, 2009, NAS VIS MISS
  • [6] BLANCHET L, 2001, LECT NOTES PHYS, V562
  • [7] Light deflection by gravitational waves from localized sources
    Damour, T
    Esposito-Farese, G
    [J]. PHYSICAL REVIEW D, 1998, 58 (04):
  • [8] ESTABROOK FB, 1975, GEN REL GRAV, V6
  • [9] The status of GEO 600
    Grote, H.
    [J]. CLASSICAL AND QUANTUM GRAVITY, 2008, 25 (11)
  • [10] Constraining the properties of supermassive black hole systems using pulsar timing: Application to 3C 66B
    Jenet, FA
    Lommen, A
    Larson, SL
    Wen, LQ
    [J]. ASTROPHYSICAL JOURNAL, 2004, 606 (02) : 799 - 803
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