Simulations of the formation, evolution and clustering of galaxies and quasars

Springel, V.; White, S.D.M.; Jenkins, A.R.; Frenk, C.S.; Yoshida, N.; Gao, L.; Navarro, J.; Thacker, R.; Croton, D.; Helly, J.C.; Peacock, J.A.; Cole, S.; Thomas, P.; Couchman, H.; Evrard, A.; Colberg, J.; Pearce, F.

doi:10.1038/nature03597

Simulations of the formation, evolution and clustering of galaxies and quasars

Springel, V.; White, S.D.M.; Jenkins, A.R.; Frenk, C.S.; Yoshida, N.; Gao, L.; Navarro, J.; Thacker, R.; Croton, D.; Helly, J.C.; Peacock, J.A.; Cole, S.; Thomas, P.; Couchman, H.; Evrard, A.; Colberg, J.; Pearce, F.

Authors

V. Springel

S.D.M. White

Professor Adrian Jenkins a.r.jenkins@durham.ac.uk
Professor

Professor Carlos Frenk c.s.frenk@durham.ac.uk
Professor

N. Yoshida

L. Gao

J. Navarro

R. Thacker

D. Croton

Dr John Helly j.c.helly@durham.ac.uk
Chief Experimental Officer

J.A. Peacock

Professor Shaun Cole shaun.cole@durham.ac.uk
Director of the Institute for Computational Cosmology

P. Thomas

H. Couchman

A. Evrard

J. Colberg

F. Pearce

Abstract

The cold dark matter model has become the leading theoretical picture for the formation of structure in the Universe. This model, together with the theory of cosmic inflation, makes a clear prediction for the initial conditions for structure formation and predicts that structures grow hierarchically through gravitational instability. Testing this model requires that the precise measurements delivered by galaxy surveys can be compared to robust and equally precise theoretical calculations. Here we present a simulation of the growth of dark matter structure using 2,1603 particles, following them from redshift z = 127 to the present in a cube-shaped region 2.230 billion lightyears on a side. In postprocessing, we also follow the formation and evolution of the galaxies and quasars. We show that baryon-induced features in the initial conditions of the Universe are reflected in distorted form in the low-redshift galaxy distribution, an effect that can be used to constrain the nature of dark energy with future generations of observational surveys of galaxies.

Citation

Springel, V., White, S., Jenkins, A., Frenk, C., Yoshida, N., Gao, L., …Pearce, F. (2005). Simulations of the formation, evolution and clustering of galaxies and quasars. Nature, 435(7042), 629-636. https://doi.org/10.1038/nature03597

Journal Article Type	Article
Publication Date	2005-06
Deposit Date	Jan 8, 2007
Journal	Nature
Print ISSN	0028-0836
Electronic ISSN	1476-4687
Publisher	Nature Research
Peer Reviewed	Peer Reviewed
Volume	435
Issue	7042
Pages	629-636
DOI	https://doi.org/10.1038/nature03597
Keywords	Cold dark-matter, Digital sky survey, Probe wmap observations, Redshift survey, Power spectrum, Z-greater-than-5.7 quasars, Mass function, Universe, Lambda.
Public URL	https://durham-repository.worktribe.com/output/1557804