Stellar and total baryon mass fractions in groups and clusters since   redshift 1

S.Giodini (1); D. Pierini (1); A. Finoguenov (1,2); G. W. Pratt (1),; H. Boehringer (1); A. Leauthaud (7); L. Guzzo (3); H. Aussel (13); M.; Bolzonella (18); P. Capak (4,14); M. Elvis (5); G. Hasinger (17); O. Ilbert; (6); J. S.Kartaltepe (6); A. M. Koekemoer (16); S. J. Lilly (8); R. Massey; (14); H. J. McCracken (9); J. Rhodes (14,19); M. Salvato (14); D. B. Sanders; (6); N. Z. Scoville (4); S. Sasaki (10,11); V. Smolcic (14); Y. Taniguchi; (12); D. Thompson (14,15); the COSMOS collaboration ((1) Max Planck; Institut fuer Extraterrestrische Physik,(2) University of Maryland,(3); INAF-Osservatorio Astronomico di Brera; (4)Spitzer Science Center,(5); Harvard-Smithsonian Ctr. for Astrophysics,(6)Institute for Astronomy,; University of Hawaii; (7) LBNL & Berkeley Center for Cosmological Physics,; (8) ETH Zurich,(9) Institut d Astrophysique de Paris; (10) Tohoku University,; Japan,(11) Ehime University,(12) Research Center for Space; Cosmic; Evolution; Ehime University,(13) AIM Paris,(14) California Institute of; Technology,(15)Large Binocular Telescope Observatory,(16) Space Telescope; Science Institute,(17)Max-Planck-Institut fuer Plasmaphysik,(18) INAF -; Bologna Astronomical Observatory; (19) JPL)

arXiv:0904.0448·astro-ph.CO·September 28, 2009

Stellar and total baryon mass fractions in groups and clusters since redshift 1

S.Giodini (1), D. Pierini (1), A. Finoguenov (1,2), G. W. Pratt (1),, H. Boehringer (1), A. Leauthaud (7), L. Guzzo (3), H. Aussel (13), M., Bolzonella (18), P. Capak (4,14), M. Elvis (5), G. Hasinger (17), O. Ilbert, (6), J. S.Kartaltepe (6), A. M. Koekemoer (16)

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TL;DR

This study examines the baryon mass fractions in galaxy groups and clusters up to redshift 1, finding a persistent discrepancy with cosmic microwave background estimates, especially in lower mass systems, and exploring possible non-gravitational explanations.

Contribution

It provides a comprehensive analysis of baryon fractions in a large, diverse sample of groups and clusters, highlighting the mass-dependent discrepancy with CMB measurements and discussing non-gravitational effects.

Findings

01

Baryon fraction increases with cluster mass.

02

Discrepancy with CMB estimates decreases at higher masses.

03

Non-gravitational processes may influence baryon distribution.

Abstract

We investigate if the discrepancy between estimates of the total baryon mass fraction obtained from observations of the cosmic microwave background (CMB) and of galaxy groups/clusters persists when a large sample of groups is considered. To this purpose, 91 candidate X-ray groups/poor clusters at redshift 0.1 < z < 1 are selected from the COSMOS 2 deg^2 survey, based only on their X-ray luminosity and extent. This sample is complemented by 27 nearby clusters with a robust, analogous determination of the total and stellar mass inside R_500. The total sample of 118 groups and clusters with z < 1 spans a range in M_500 of ~10^13--10^15 M_sun. We find that the stellar mass fraction associated with galaxies at R_500 decreases with increasing total mass as (M_500)^-0.37 \pm 0.04, independent of redshift. Estimating the total gas mass fraction from a recently derived, high quality scaling…

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