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A Precision Test for an Extra Spatial Dimension Using Black Hole--Pulsar Binaries

High Energy Astrophysical Phenomena 2015-05-20 v3 General Relativity and Quantum Cosmology High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

We discuss the observable effects of enhanced black-hole mass loss in a black hole--neutron star (BH--NS) binary, due to the presence of a warped extra spatial dimension of curvature radius LL in the braneworld scenario. For some masses and orbital parameters in the expected ranges the binary components would outspiral, the opposite of the behavior due to energy loss from gravitational radiation alone. If the NS is a pulsar, observations of the rate of change of the orbital period with a precision obtained for the Binary Pulsar B1913+16 could easily detect the effect of mass loss. For MBH=7MM_{BH}=7M_\odot, MNS=1.4MM_{NS}=1.4M_\odot, eccentricity e=0.1e=0.1, and L=10μL=10\mum, the critical orbital period dividing systems which inspiral from systems which outspiral is P\approx6.5 hours, which is within the range of expected orbital periods; this value drops to P\approx4.2 hours for MBH=5MM_{BH}=5M_\odot. Observations of a BH--pulsar system could set considerably better limits on LL in these braneworld models than could be determined by torsion-balance gravity experiments in the foreseeable future.

Keywords

Cite

@article{arxiv.1010.5245,
  title  = {A Precision Test for an Extra Spatial Dimension Using Black Hole--Pulsar Binaries},
  author = {John H. Simonetti and Michael Kavic and Djordje Minic and Umair Surani and Vipin Vejayan},
  journal= {arXiv preprint arXiv:1010.5245},
  year   = {2015}
}

Comments

4 pages; typos fixed; references added

R2 v1 2026-06-21T16:33:57.647Z