BLAST: Resolving the Cosmic Submillimeter Background

Gaelen Marsden; Peter A. R. Ade; James J. Bock; Edward L. Chapin; Mark; J. Devlin; Simon R. Dicker; Matthew Griffin; Joshua O. Gundersen; Mark; Halpern; Peter C. Hargrave; David H. Hughes; Jeff Klein; Philip Mauskopf,; Benjamin Magnelli; Lorenzo Moncelsi; Calvin B. Netterfield; Henry Ngo; Luca; Olmi; Enzo Pascale; Guillaume Patanchon; Marie Rex; Douglas Scott,; Christopher Semisch; Nicholas Thomas; Matthew D. P. Truch; Carole Tucker,; Gregory S. Tucker; Marco P. Viero; Donald V. Wiebe

arXiv:0904.1205·astro-ph.CO·December 10, 2009

BLAST: Resolving the Cosmic Submillimeter Background

Gaelen Marsden, Peter A. R. Ade, James J. Bock, Edward L. Chapin, Mark, J. Devlin, Simon R. Dicker, Matthew Griffin, Joshua O. Gundersen, Mark, Halpern, Peter C. Hargrave, David H. Hughes, Jeff Klein, Philip Mauskopf,, Benjamin Magnelli, Lorenzo Moncelsi, Calvin B. Netterfield

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TL;DR

This paper presents precise measurements of the cosmic infrared background using BLAST, revealing the contribution of high-redshift galaxies and AGN, and providing constraints for galaxy evolution models.

Contribution

The study offers the most accurate submillimeter background intensities and redshift distributions, linking galaxy populations to the cosmic infrared background.

Findings

01

Total submillimeter intensities measured at 250, 350, and 500 microns.

02

High-redshift sources contribute increasingly at longer wavelengths.

03

AGN are significantly brighter than average galaxies in the submillimeter bands.

Abstract

The Balloon-borne Large Aperture Submillimeter Telescope (BLAST) has made one square degree, deep, confusion limited maps at three different bands, centered on the Great Observatories Origins Deep Survey South field. By calculating the covariance of these maps with catalogs of 24 micron sources from the Far-Infrared Deep Extragalactic Legacy Survey (FIDEL), we have determined that the total submillimeter intensities are 8.60 +/- 0.59, 4.93 +/- 0.34, and 2.27 +/- 0.20 nW m^2 sr^(-1) at 250, 350, and 500 micron, respectively. These numbers are more precise than previous estimates of the cosmic infrared background (CIB) and are consistent with 24 micron-selected galaxies generating the full intensity of the CIB. We find that the fraction of the CIB that originates from sources at z >= 1.2 increases with wavelength, with 60% from high redshift sources at 500 micron. At all BLAST…

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