Dissecting the cosmic infra-red background with Herschel/PEP

S. Berta; B. Magnelli; D. Lutz; B. Altieri; H. Aussel; P. Andreani; O.; Bauer; A. Bongiovanni; A. Cava; J. Cepa; A. Cimatti; E. Daddi; H. Dominguez,; D. Elbaz; H. Feuchtgruber; N.M. Foerster Schreiber; R. Genzel; C. Gruppioni,; R. Katterloher; G. Magdis; R. Maiolino; R. Nordon; A.M. Perez Garcia; A.; Poglitsch; P. Popesso; F. Pozzi; L. Riguccini; G. Rodighiero; A. Saintonge,; P. Santini; M. Sanchez-Portal; L. Shao; E. Sturm; L.J. Tacconi; I.; Valtchanov; M. Wetzstein; E. Wieprecht

arXiv:1005.1073·astro-ph.CO·May 18, 2015

Dissecting the cosmic infra-red background with Herschel/PEP

S. Berta, B. Magnelli, D. Lutz, B. Altieri, H. Aussel, P. Andreani, O., Bauer, A. Bongiovanni, A. Cava, J. Cepa, A. Cimatti, E. Daddi, H. Dominguez,, D. Elbaz, H. Feuchtgruber, N.M. Foerster Schreiber, R. Genzel, C. Gruppioni,, R. Katterloher, G. Magdis, R. Maiolino, R. Nordon

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TL;DR

This study uses Herschel/PACS data to analyze the cosmic infrared background at 100 and 160 micrometers, revealing the contributions of different galaxy populations and redshift ranges to the background light.

Contribution

It provides new measurements of the CIB components at these wavelengths, resolves a significant fraction of the background, and characterizes the properties of contributing galaxies, especially at low redshift.

Findings

01

Resolved ~45-52% of the CIB at 100 and 160 um.

02

Identified colder, luminous sources at z<=0.5 with SEDs resembling late-spiral galaxies.

03

Most of the resolved CIB originates from sources at redshift z<=1.

Abstract

The constituents of the cosmic IR background (CIB) are studied at its peak wavelengths (100 and 160 um) by exploiting Herschel/PACS observations of the GOODS-N, Lockman Hole, and COSMOS fields in the PACS Evolutionary Probe (PEP) guaranteed-time survey. The GOODS-N data reach 3 sigma depths of ~3.0 mJy at 100 um and ~5.7 mJy at 160 um. At these levels, source densities are 40 and 18 beams/source, respectively, thus hitting the confusion limit at 160 um. Differential number counts extend from a few mJy up to 100-200 mJy, and are approximated as a double power law, with the break lying between 5 and 10 mJy. The available ancillary information allows us to split number counts into redshift bins. At z<=0.5 we isolate a class of luminous sources (L(IR)~1e11 Lsun), whose SEDs resemble late-spiral galaxies, peaking at ~130 um restframe and significantly colder than what is expected on the…

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