The Herschel PEP/HerMES Luminosity Function. I: Probing the Evolution of   PACS selected Galaxies to z~4

C. Gruppioni; F. Pozzi; G. Rodighiero; I. Delvecchio; S. Berta; L.; Pozzetti; G. Zamorani; P. Andreani; A. Cimatti; O. Ilbert; E. Le Floch; D.; Lutz; B. Magnelli; L. Marchetti; P. Monaco; R. Nordon; S. Oliver; P. Popesso,; L. Riguccini; I. Roseboom; D.J. Rosario; M. Sargent; M. Vaccari; B. Altieri,; H. Aussel; A. Bongiovanni; J. Cepa; E. Daddi; H. Dominguez-Sanchez; D. Elbaz,; N. Forster-Schreiber; R. Genzel; A. Iribarrem; M. Magliocchetti; R. Maiolino,; A. Poglitsch; A. Perez Garcia; M. Sanchez-Portal; E. Sturm; L. Tacconi; I.; Valtchanov; A. Amblard; V. Arumugam; M. Bethermin; J. Bock; A. Boselli; V.; Buat; D. Burgarella; N. Castro-Rodriguez; A. Cava; P. Chanial; D.L. Clements,; A. Conley; A. Cooray; C.D. Dowell; E. Dwek; S. Eales; A. Franceschini; J.; Glenn; M. Griffin; E. Hatziminaoglou; E. Ibar; K. Isaak; R.J. Ivison; G.; Lagache; L. Levenson; N. Lu; S. Madden; B. Maffei; G. Mainetti; H.T. Nguyen,; B. O Halloran; M.J. Page; P. Panuzzo; A. Papageorgiou; C.P. Pearson; I.; Perez-Fournon; M. Pohlen; D. Rigopoulou; M. Rowan-Robinson; B. Schulz; D.; Scott; N. Seymour; D.L. Shupe; A.J. Smith; J.A. Stevens; M. Symeonidis; M.; Trichas; K.E. Tugwell; L. Vigroux; L. Wang; G. Wright; C.K. Xu; M. Zemcov; S.; Bardelli; M. Carollo; T. Contini; O. Le Fevre; S. Lilly; V. Mainieri; A.; Renzini; M. Scodeggio; E. Zucca

arXiv:1302.5209·astro-ph.CO·June 15, 2015

The Herschel PEP/HerMES Luminosity Function. I: Probing the Evolution of PACS selected Galaxies to z~4

C. Gruppioni, F. Pozzi, G. Rodighiero, I. Delvecchio, S. Berta, L., Pozzetti, G. Zamorani, P. Andreani, A. Cimatti, O. Ilbert, E. Le Floch, D., Lutz, B. Magnelli, L. Marchetti, P. Monaco, R. Nordon, S. Oliver, P. Popesso,, L. Riguccini, I. Roseboom, D.J. Rosario, M. Sargent

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TL;DR

This study uses Herschel infrared data to analyze the evolution of galaxy luminosity functions up to redshift 4, revealing distinct evolutionary paths for different galaxy populations and their contributions to the cosmic infrared luminosity density.

Contribution

First comprehensive analysis of IR luminosity functions up to z~4, distinguishing the evolution of various galaxy populations and their roles in cosmic star formation history.

Findings

01

IR luminosity density peaks at z~1 and flattens between z~1 and 3

02

Main sequence galaxies dominate IR luminosity density at all redshifts

03

Different galaxy populations follow distinct evolutionary schemes

Abstract

We exploit the deep and extended far infrared data sets (at 70, 100 and 160 um) of the Herschel GTO PACS Evolutionary Probe (PEP) Survey, in combination with the HERschel Multi tiered Extragalactic Survey (HerMES) data at 250, 350 and 500 um, to derive the evolution of the restframe 35 um, 60 um, 90 um, and total infrared (IR) luminosity functions (LFs) up to z~4. We detect very strong luminosity evolution for the total IR LF combined with a density evolution. In agreement with previous findings, the IR luminosity density increases steeply to z~1, then flattens between z~1 and z~3 to decrease at z greater than 3. Galaxies with different SEDs, masses and sSFRs evolve in very different ways and this large and deep statistical sample is the first one allowing us to separately study the different evolutionary behaviours of the individual IR populations contributing to the IR luminosity…

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