Herschel unveils a puzzling uniformity of distant dusty galaxies

D.Elbaz; H.S.Hwang; B.Magnelli; E.Daddi; H.Aussel; B.Altieri,; A.Amblard; P.Andreani; V.Arumugam; R.Auld; T.Babbedge; S.Berta; A.Blain,; J.Bock; A.Bongiovanni; A.Boselli; V.Buat; D.Burgarella; N.Castro-Rodriguez,; A.Cava; J.Cepa; P.Chanial; R.-R.Chary; A.Cimatti; D.L.Clements; A.Conley,; L.Conversi; A.Cooray; M.Dickinson; H.Dominguez; C.D.Dowell; J.S.Dunlop,; E.Dwek; S.Eales; D.Farrah; N.Forster Schreiber; M.Fox; A.Franceschini,; W.Gear; R.Genzel; J.Glenn; M.Griffin; C.Gruppioni; M.Halpern,; E.Hatziminaoglou; E.Ibar; K.Isaak; R.J.Ivison; G.Lagache; D.Le Borgne; E.Le; Floc'h; L.Levenson; N.Lu; D.Lutz; S.Madden; B.Maffei; G.Magdis; G.Mainetti,; R.Maiolino; L.Marchetti; A.M.J.Mortier; H.T.Nguyen; R.Nordon; B.O'Halloran,; K.Okumura; S.J.Oliver; A.Omont; M.J.Page; P.Panuzzo; A.Papageorgiou,; C.P.Pearson; I.Perez Fournon; A.M.Perez Garc{\i}a; A.Poglitsch; M.Pohlen,; P.Popesso; F.Pozzi; J.I.Rawlings; D.Rigopoulou; L.Riguccini; D.Rizzo,; G.Rodighiero; I.G.Roseboom; M.Rowan-Robinson; A.Saintonge; M.Sanchez-Portal,; P.Santini; M.Sauvage; B.Schulz; Douglas Scott; N.Seymour; L.Shao; D.L.Shupe,; A.J.Smith; J.A.Stevens; E.Sturm; M.Symeonidis; L.Tacconi; M.Trichas,; K.E.Tugwell; M.Vaccari; I.Valtchanov; J.Vieira; L.Vigroux; L.Wang; R.Ward,; G.Wright; C.K.Xu; and M.Zemcov

arXiv:1005.2859·astro-ph.CO·May 19, 2015

Herschel unveils a puzzling uniformity of distant dusty galaxies

D.Elbaz, H.S.Hwang, B.Magnelli, E.Daddi, H.Aussel, B.Altieri,, A.Amblard, P.Andreani, V.Arumugam, R.Auld, T.Babbedge, S.Berta, A.Blain,, J.Bock, A.Bongiovanni, A.Boselli, V.Buat, D.Burgarella, N.Castro-Rodriguez,, A.Cava, J.Cepa, P.Chanial, R.-R.Chary, A.Cimatti, D.L.Clements

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TL;DR

Herschel observations reveal that distant dusty galaxies at z~2.5 show surprisingly consistent spectral energy distributions and dust temperatures over time, with some evidence of warmer dust and AGN activity at higher redshifts.

Contribution

This study provides new insights into the evolution of galaxy IR properties using Herschel deep surveys, highlighting the uniformity of SEDs and dust temperatures since z~2.5.

Findings

01

Mid-IR extrapolations are accurate for z<1.5 star-forming galaxies.

02

Dust temperature of luminous IR galaxies is mildly colder at z~1.

03

High-z galaxies show increased mid-IR to far-IR ratios, possibly due to AGN activity.

Abstract

The Herschel Space Observatory enables us to accurately measure the bolometric output of starburst galaxies and active galactic nuclei (AGN) by directly sampling the peak of their far-infrared (IR) emission. Here we examine whether the spectral energy distribution (SED) and dust temperature of galaxies have strongly evolved since z~2.5. We use Herschel deep extragalactic surveys from 100 to 500um to compute total IR luminosities in galaxies down to the faintest levels, using PACS and SPIRE in the GOODS-North field (PEP and HerMES key programs). We show that measurements in the SPIRE bands can be used below the statistical confusion limit if information at higher spatial resolution is used to identify isolated galaxies whose flux is not boosted by bright neighbors. Below z~1.5, mid-IR extrapolations are correct for star-forming galaxies with a dispersion of only 40% (0.15dex), therefore…

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