Gravitational redshift in the void-galaxy cross-correlation function in redshift space
Abstract
We construct an analytic model for the void-galaxy cross-correlation function that enables theoretical predictions of the dipole signal produced dominantly by the gravitational redshift within voids for the first time. By extending a theoretical formulation for the redshift-space distortion of galaxies to include the second order terms of the galaxy peculiar velocity and the gravitational potential, we formulate the void-galaxy cross-correlation function multipoles in the redshift space, the monopole , dipole and quadrupole . We find that the dipole is dominated by the gravitational redshift, which provide a unique opportunity to detect the gravitational potential of voids. Thus, for the dipole , the gravitational redshift is crucial. Although the higher order effect is almost negligible on the monopole , it has an influence on the quadrupole . The effects from the random velocity of galaxies and the definition of the void center on the dipole signal are also discussed. Our model offers a new theoretical probe for the detection of gravitational redshift with voids and further tests on cosmology and gravity.
Keywords
Cite
@article{arxiv.1805.05708,
title = {Gravitational redshift in the void-galaxy cross-correlation function in redshift space},
author = {Yue Nan and Kazuhiro Yamamoto},
journal= {arXiv preprint arXiv:1805.05708},
year = {2018}
}
Comments
18 pages, 13 captioned figures, 2 tables; typos corrected, clarifications added; version accepted for publication in Phys. Rev. D