The impact of evolving infrared spectral energy distributions of   galaxies on star formation rate estimates

R. Nordon (1); D. Lutz (1); R. Genzel (1); S. Berta (1); S. Wuyts (1),; B. Magnelli (1); B. Altieri (2); P. Andreani (3); H. Aussel (4); A.; Bongiovanni (5,6); J. Cepa (5,6); A. Cimatti (7); E. Daddi (4); D. Fadda (8),; N. M. Forster Schreiber (1); G. Lagache (9); R. Maiolino (10); A. M. Perez; Garcia (5,6); A. Poglitsch (1); P. Popesso (1); F. Pozzi (10); G. Rodighiero; (11); D. Rosario (1); A. Saintonge (1); M. Sanchez-Portal (2); P. Santini; (1,10); E. Sturm (1); L. J. Tacconi (1); I. Valtchanov (2); L. Yan (8) ((1); MPE; Garching; (2) Herschel Science Centre; ESA (3) ESO; (4) CEA-Saclay; (5); Instituto de Astrofisica de Canarias; (6) Universidad de La Laguna; (7); Universita di Bologna; (8) IPAC; (9) IAS; (10) INAF-Roma; (11) University of; Padova)

arXiv:1106.1186·astro-ph.CO·May 28, 2015

The impact of evolving infrared spectral energy distributions of galaxies on star formation rate estimates

R. Nordon (1), D. Lutz (1), R. Genzel (1), S. Berta (1), S. Wuyts (1),, B. Magnelli (1), B. Altieri (2), P. Andreani (3), H. Aussel (4), A., Bongiovanni (5,6), J. Cepa (5,6), A. Cimatti (7), E. Daddi (4), D. Fadda (8),, N. M. Forster Schreiber (1), G. Lagache (9)

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TL;DR

This study investigates how the evolving infrared spectral energy distributions of galaxies at redshifts 0.7 to 2.5 affect star formation rate estimates, revealing that local calibration methods overestimate rates at high redshift.

Contribution

It provides a redshift-independent calibration of galaxy SED templates based on SSFR offset, improving star formation rate estimates for high-redshift galaxies.

Findings

01

z~2 SFRs are overestimated using local 24 um flux calibrations.

02

Main sequence galaxies show consistent nuLnu(8)/LIR ratios up to z~2.5.

03

SED shape correlates with SSFR offset from the main sequence.

Abstract

We combine Herschel-PACS data from the PEP program with Spitzer 24 um and 16 um photometry and ultra deep IRS mid-infrared spectra, to measure the mid- to far-infrared spectral energy distribution (SED) of 0.7<z<2.5 normal star forming galaxies around the main sequence (the redshift-dependent relation of star formation rate and stellar mass). Our deep data confirm from individual far-infrared detections that z~2 star formation rates are overestimated if based on 24 um fluxes and SED templates that are calibrated via local trends with luminosity. Galaxies with similar ratios of rest-frame nuLnu(8) to 8-1000 um infrared luminosity (LIR) tend to lie along lines of constant offset from the main sequence. We explore the relation between SED shape and offset in specific star formation rate (SSFR) from the redshift-dependent main sequence. Main sequence galaxies tend to have a similar…

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