Litcius/Paper detail

Cosmological perturbations for two cold fluids in ΛCDM

Cornelius Rampf, Cora Uhlemann, Oliver Hahn

2020Monthly Notices of the Royal Astronomical Society28 citationsDOIOpen Access PDF

Abstract

ABSTRACT The cosmic large-scale structure of our Universe is comprised of baryons and cold dark matter (CDM). Yet it is customary to treat these two components as a combined single-matter fluid with vanishing pressure, which is justified only for sufficiently large scales and late times. Here, we go beyond the single-fluid approximation and develop the perturbation theory for two gravitationally coupled fluids while still assuming vanishing pressure. We mostly focus on perturbative expansions in powers of D (or D+), the linear structure growth of matter in a ΛCDM Universe with cosmological constant Λ. We derive in particular (1) explicit recursion relations for the two fluid densities, (2) complementary all-order results in the Lagrangian-coordinates approach, as well as (3) the associated component wavefunctions in a semiclassical approach to cosmic large-scale structure. In our companion paper, we apply these new theoretical results to generate novel higher order initial conditions for cosmological hydrodynamical simulations.

Topics & Concepts

PhysicsCold dark matterStructure formationCosmological constantPerturbation (astronomy)UniversePerturbation theory (quantum mechanics)BaryonCOSMIC cancer databaseDark matterCosmologyMetric expansion of spaceTheoretical physicsClassical mechanicsAstrophysicsDark energyQuantum mechanicsGalaxyCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaBlack Holes and Theoretical Physics