English

Gravitational wave cosmology I: high frequency approximation

Cosmology and Nongalactic Astrophysics 2021-06-30 v3 High Energy Astrophysical Phenomena General Relativity and Quantum Cosmology High Energy Physics - Phenomenology High Energy Physics - Theory

Abstract

In this paper, we systematically study gravitational waves (GWs) produced by remote compact astrophysical sources. To describe such GWs properly, we introduce three scales, λ,  Lc\lambda, \; L_c and LL, denoting, respectively, the typical wavelength of GWs, the scale of the cosmological perturbations, and the size of the observable universe. For GWs to be detected by the current and foreseeable detectors, the condition λLcL\lambda \ll L_c \ll L holds, and such GWs can be well approximated as high-frequency GWs. In order for the backreaction of the GWs to the background to be negligible, we must assume that hμν1\left|h_{\mu\nu}\right| \ll 1, in addition to the condition ϵ1\epsilon \ll 1, which are also the conditions for the linearized Einstein field equations for hμνh_{\mu\nu} to be valid, where gμν=γμν+ϵhμνg_{\mu\nu} = \gamma_{\mu\nu} + \epsilon h_{\mu\nu}, and γμν\gamma_{\mu\nu} denotes the background. To simplify the field equations, we show that the spatial, traceless, and Lorentz gauge conditions can be imposed simultaneously, even when the background is not vacuum, as long as the high-frequency GW approximation is valid. However, to develop the formulas that can be applicable to as many cases as possible, we first write down explicitly the linearized Einstein field equations by imposing only the spatial gauge. Applying the general formulas together with the geometrical optics approximation to such GWs, we find that they still move along null geodesics and its polarization bi-vector is parallel-transported, even when both the cosmological scalar and tensor perturbations are present. In addition, we also calculate the gravitational integrated Sachs-Wolfe effects, whereby the dependences of the amplitude, phase and luminosity distance of the GWs on these two kinds of perturbations are read out explicitly.

Keywords

Cite

@article{arxiv.2102.08968,
  title  = {Gravitational wave cosmology I: high frequency approximation},
  author = {Jared Fier and Xiongjun Fang and Bowen Li and Shinji Mukohyama and Anzhong Wang and Tao Zhu},
  journal= {arXiv preprint arXiv:2102.08968},
  year   = {2021}
}

Comments

revtex4, one figure, no tables. Typos are corrected. Phys. Rev. D103, 123021 (2021)

R2 v1 2026-06-23T23:15:45.796Z