PRIMUS: Effect of Galaxy Environment on the Quiescent Fraction Evolution   at z < 0.8

ChangHoon Hahn (1); Michael R. Blanton (1); John Moustakas (2); Alison; L. Coil (3); Richard J. Cool (4); Daniel J. Eisenstein (5); Ramin A. Skibba; (3); Kenneth C. Wong (6); Guangtun Zhu (7) ((1) Center for Cosmology and; Particle Physics; Department of Physics; New York University; New York; NY,; USA; (2) Department of Physics; Astronomy; Siena College; Loudonville; NY,; USA; (3) Center for Astrophysics; Space Sciences; Department of Physics,; University of California; La Jolla; CA; USA; (4) MMT Observatory; University; of Arizona; Tucson AZ USA; (5) Harvard-Smithsonian Center for Astrophysics,; Cambridge; MA USA; (6) Steward Observatory; University of Arizona; Tucson,; AZ; (7) Hubble Fellow; Department of Physics; Astronomy; The Johns Hopkins; University; Baltimore; MD; USA)

arXiv:1412.7162·astro-ph.GA·December 25, 2014·1 cites

PRIMUS: Effect of Galaxy Environment on the Quiescent Fraction Evolution at z < 0.8

ChangHoon Hahn (1), Michael R. Blanton (1), John Moustakas (2), Alison, L. Coil (3), Richard J. Cool (4), Daniel J. Eisenstein (5), Ramin A. Skibba, (3), Kenneth C. Wong (6), Guangtun Zhu (7) ((1) Center for Cosmology and, Particle Physics, Department of Physics

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TL;DR

This study examines how galaxy environment influences the increase in the quiescent galaxy fraction from redshift 0.8 to 0.0, revealing environmental and internal factors affecting galaxy evolution.

Contribution

It provides a comprehensive analysis of the evolution of the quiescent fraction across different environments and masses using large spectroscopic surveys, highlighting the role of external and internal processes.

Findings

01

Quiescent fraction is higher at greater masses and denser environments.

02

The quiescent fraction increases over time across all environments and masses.

03

External influences cause star formation cessation in some galaxies, internal processes dominate in recent universe.

Abstract

We investigate the effects of galaxy environment on the evolution of the quiescent fraction ( $f_{Q}$ ) from z =0.8 to 0.0 using spectroscopic redshifts and multi-wavelength imaging data from the PRIsm MUlti-object Survey (PRIMUS) and the Sloan Digitial Sky Survey (SDSS). Our stellar mass limited galaxy sample consists of ~14,000 PRIMUS galaxies within z = 0.2-0.8 and ~64,000 SDSS galaxies within z = 0.05-0.12. We classify the galaxies as quiescent or star-forming based on an evolving specific star formation cut, and as low or high density environments based on fixed cylindrical aperture environment measurements on a volume-limited environment defining population. For quiescent and star-forming galaxies in low or high density environments, we examine the evolution of their stellar mass function (SMF). Then using the SMFs we compute $f_{Q} (M_{*})$ and quantify its evolution…

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Taxonomy

TopicsGalaxies: Formation, Evolution, Phenomena · Astronomy and Astrophysical Research · Stellar, planetary, and galactic studies