The HerMES SPIRE submillimeter local luminosity function

M. Vaccari (Padova); L. Marchetti; A. Franceschini; B. Altieri; A.; Amblard; V. Arumugam; R. Auld; H. Aussel; T. Babbedge; A. Blain; J. Bock; A.; Boselli; V. Buat; D. Burgarella; N. Castro-Rodriguez; A. Cava; P. Chanial,; D.L. Clements; A. Conley; L. Conversi; A. Cooray; C.D. Dowell; E. Dwek; S.; Dye; S. Eales; D. Elbaz; D. Farrah; M. Fox; W. Gear; J. Glenn; E.A. Gonzalez; Solares; M. Griffin; M. Halpern; E. Hatziminaoglou; J. Huang; E. Ibar; K.; Isaak; R.J. Ivison; G. Lagache; L. Levenson; N. Lu; S. Madden; B. Maffei; G.; Mainetti; A.M.J. Mortier; H.T. Nguyen; B. O'Halloran; S.J. Oliver; A. Omont,; M.J. Page; P. Panuzzo; A. Papageorgiou; C.P. Pearson; I. Perez-Fournon; M.; Pohlen; J.I. Rawlings; G. Raymond; D. Rigopoulou; D. Rizzo; G. Rodighiero,; I.G. Roseboom; M. Rowan-Robinson; M. Sanchez Portal; B. Schulz; Douglas; Scott; N. Seymour; D.L. Shupe; A.J. Smith; J.A. Stevens; M. Symeonidis; M.; Trichas; K.E. Tugwell; E. Valiante; I. Valtchanov; L. Vigroux; L. Wang; R.; Ward; G. Wright; C.K. Xu; M. Zemcov

arXiv:1005.2187·astro-ph.CO·May 18, 2015

The HerMES SPIRE submillimeter local luminosity function

M. Vaccari (Padova), L. Marchetti, A. Franceschini, B. Altieri, A., Amblard, V. Arumugam, R. Auld, H. Aussel, T. Babbedge, A. Blain, J. Bock, A., Boselli, V. Buat, D. Burgarella, N. Castro-Rodriguez, A. Cava, P. Chanial,, D.L. Clements, A. Conley, L. Conversi, A. Cooray

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TL;DR

This paper presents the first Herschel-based measurement of the local submillimeter luminosity function and infrared luminosity density, providing new constraints for galaxy evolution models.

Contribution

It introduces the first Herschel SPIRE-based local luminosity function and infrared luminosity density measurements in the submillimeter range.

Findings

01

Slightly more abundant local submillimeter galaxy population than models predict.

02

Infrared bolometric luminosity function has a flat slope at low luminosity.

03

Measured local luminosity density is consistent with recent literature.

Abstract

Local luminosity functions are fundamental benchmarks for high-redshift galaxy formation and evolution studies as well as for models describing these processes. Determining the local luminosity function in the submillimeter range can help to better constrain in particular the bolometric luminosity density in the local Universe, and Herschel offers the first opportunity to do so in an unbiased way by imaging large sky areas at several submillimeter wavelengths. We present the first Herschel measurement of the submillimeter 0<z<0.2 local luminosity function and infrared bolometric (8-1000 $μ$ m) local luminosity density based on SPIRE data from the HerMES Herschel Key Program over 14.7 deg^2. Flux measurements in the three SPIRE channels at 250, 350 and 500 \mum are combined with Spitzer photometry and archival data. We fit the observed optical-to-submillimeter spectral energy…

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