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The electromagnetic Christodoulou memory effect and its application to neutron star binary mergers

Lydia Bieri PoNing Chen Shing-Tung Yau

Mathematical Physics mathscidoc:1912.43577

Classical and Quantum Gravity, 29, (21), 215003, 2012.9
Gravitational waves are predicted by the general theory of relativity. It has been shown that gravitational waves have a nonlinear memory, displacing test masses permanently. This is called the Christodoulou memory. We proved that the electromagnetic field contributes at highest order to the nonlinear memory effect of gravitational waves, enlarging the permanent displacement of test masses. In experiments like LISA or LIGO which measure distances of test masses, the Christodoulou memory will manifest itself as a permanent displacement of these objects. It has been suggested to detect the Christodoulou memory effect using radio telescopes investigating small changes in pulsar's pulse arrival times. The latter experiments are based on present-day technology and measure changes in frequency. In the present paper, we study the electromagnetic Christodoulou memory effect and compute it for binary neutron
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@inproceedings{lydia2012the,
  title={The electromagnetic Christodoulou memory effect and its application to neutron star binary mergers},
  author={Lydia Bieri, PoNing Chen, and Shing-Tung Yau},
  url={http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191224204201339114141},
  booktitle={Classical and Quantum Gravity},
  volume={29},
  number={21},
  pages={215003},
  year={2012},
}
Lydia Bieri, PoNing Chen, and Shing-Tung Yau. The electromagnetic Christodoulou memory effect and its application to neutron star binary mergers. 2012. Vol. 29. In Classical and Quantum Gravity. pp.215003. http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191224204201339114141.
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