ZFOURGE/CANDELS: On the Evolution of M* Galaxy Progenitors from z=3 to   0.5

Casey Papovich (1); I. Labb\'e (2); R. Quadri (1); V. Tilvi (1); P.; Behroozi (3); E. F. Bell (4); K. Glazebrook (5); L. Spitler (6,7); C. M. S.; Straatman (2); K.-V. Tran (1); M. Cowley (6); R. Dav\'e (8); A. Dekel (9); M.; Dickinson (10); H. Ferguson (3); S. L. Finkelstein (11); E. Gawiser (12); H.; Inami (10); S. M. Faber (13); G. G. Kacprzak (5); L. Kawinwanchakij (1); D.; Kocevski (14); A. Koekemoer (3); D. C. Koo (13); P. Kurczynski (12); J. M.; Lotz (3); Y. Lu (15); R. A. Lucas (3); D. McIntosh (16); N. Mehrtens (1); B.; Mobasher (17); A. Monson (18); G. Morrison (19); T. Nanayakkara (5); S. E.; Perrson (18); B. Salmon (1); R. Simons (20); A. Tomczak (1); P. van Dokkum; (21); B. Weiner (22); S. P. Willner (23); ((1) Texas A&M; (2) Leiden; Observatory; (3) STScI; (4) Michigan; (5) Swinburne Univ.; (6) Macquarie; Univ.; (7) AAO; (8) Univ. of the Western Cape; SAAO; (9) Hebrew Univ.; (10); NOAO; (11) Univ. of Texas-Austin; (12) Rutgers; (13) UC Santa Cruz/Lick; Observatory; (14) Kentucky; (15) Stanford; (16) Missouri-Kansas City; (17) UC; Riverside; (18) Carnegie Observatories; (19) Hawaii/CFHT; (20) Johns Hopkins,; (21) Yale; (22) Arizona/Steward Observatory; (23) Harvard/CfA)

arXiv:1412.3806·astro-ph.GA·June 23, 2015

ZFOURGE/CANDELS: On the Evolution of M* Galaxy Progenitors from z=3 to 0.5

Casey Papovich (1), I. Labb\'e (2), R. Quadri (1), V. Tilvi (1), P., Behroozi (3), E. F. Bell (4), K. Glazebrook (5), L. Spitler (6,7), C. M. S., Straatman (2), K.-V. Tran (1), M. Cowley (6), R. Dav\'e (8), A. Dekel (9), M., Dickinson (10), H. Ferguson (3)

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TL;DR

This study traces the evolution of M* galaxy progenitors from redshift 3 to 0.5, revealing their transformation from star-forming disks to quiescent galaxies, with differences between Milky Way and Andromeda progenitors.

Contribution

It provides a detailed evolutionary pathway of M* galaxy progenitors using deep multiwavelength data and abundance-matching, highlighting differences between MW and M31 progenitors.

Findings

01

MW-mass progenitors evolve later and are less massive than M31-mass progenitors.

02

Progenitors transition from star-forming disks to quiescent galaxies over time.

03

Galaxy size and star-formation rates decline as cold gas fractions decrease.

Abstract

Galaxies with stellar masses near M* contain the majority of stellar mass in the universe, and are therefore of special interest in the study of galaxy evolution. The Milky Way (MW) and Andromeda (M31) have present day stellar masses near M*, at 5x10^10 Msol (MW-mass) and 10^11 Msol (M31-mass). We study the typical progenitors of these galaxies using ZFOURGE, a deep medium-band near-IR imaging survey, which is sensitive to the progenitors of these galaxies out to z~3. We use abundance-matching techniques to identify the main progenitors of these galaxies at higher redshifts. We measure the evolution in the stellar mass, rest-frame colors, morphologies, far-IR luminosities, and star-formation rates combining our deep multiwavelength imaging with near-IR HST imaging from CANDELS, and far-IR imaging from GOODS-H and CANDELS-H. The typical MW-mass and M31-mass progenitors passed through the…

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