Relative velocity of dark matter and baryonic fluids and the formation of the first structures

Dmitriy Tseliakhovich and Christopher Hirata
Phys. Rev. D 82, 083520 – Published 18 October 2010

Abstract

At the time of recombination, baryons and photons decoupled and the sound speed in the baryonic fluid dropped from relativistic, c/3, to the thermal velocities of the hydrogen atoms, 2×105c. This is less than the relative velocities of baryons and dark matter computed via linear perturbation theory, so we infer that there are supersonic coherent flows of the baryons relative to the underlying potential wells created by the dark matter. As a result, the advection of small-scale perturbations (near the baryonic Jeans scale) by large-scale velocity flows is important for the formation of the first structures. This effect involves a quadratic term in the cosmological perturbation theory equations and hence has not been included in studies based on linear perturbation theory. We show that the relative motion suppresses the abundance of the first bound objects, even if one only investigates dark matter haloes, and leads to qualitative changes in their spatial distribution, such as introducing scale-dependent bias and stochasticity. We further discuss the possible observable implications of this effect for high-redshift galaxy clustering and reionization.

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  • Received 24 May 2010

DOI:https://doi.org/10.1103/PhysRevD.82.083520

© 2010 The American Physical Society

Authors & Affiliations

Dmitriy Tseliakhovich

  • California Institute of Technology, M/C 249-17, Pasadena, California 91125, USA

Christopher Hirata

  • California Institute of Technology, M/C 350-17, Pasadena, California 91125, USA

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Issue

Vol. 82, Iss. 8 — 15 October 2010

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