The Calibration of Mid-Infrared Star Formation Rate Indicators

D. Calzetti (1,2); R. C. Kennicutt (3); C. W. Engelbracht (4); C.; Leitherer (2); B. T. Draine (5); L. Kewley (6); J. Moustakas (7); M. Sosey; (2); D.A. Dale (8); K. D. Gordon (4); G.X. Helou (9); D.J. Hollenbach (10),; L. Armus (9); G. Bendo (11); C. Bot (9); B. Buckalew (9); T. Jarrett (9); A.; Li (12); M. Meyer (2); E.J. Murphy (13); M. Prescott (4); M. W. Regan (2); G.; H. Rieke (4); H. Roussel (14); K. Sheth (9); J. D. T. Smith (4); M. D.; Thornley (15); F. Walter (14) ((1) Dept. of Astronomy; University of; Massachusetts; (2) Space Telescope Science Institute; (3) Institute of; Astronomy; Cambridge University; (4) Steward Observatory; University of; Arizona; (5) Princeton University Observatory; (6) Institute for Astronomy,; University of Hawaii; (7) Dept. of Physics; New York University; (8) Dept. of; Physics; Astronomy; University of Wyoming; (9) Spitzer Science Center,; Caltech; (10) NASA/Ames Research Center; (11) Astrophysics Group; Imperial; College; (12) Dept. of Physics; Astronomy; University of Missouri; (13); Dept. of Astronomy; Yale University; (14) Max Planck Institut fur Astronomie,; Heidelberg; (15) Dept. of Physics; Astronomy; Bucknell University)

arXiv:0705.3377·astro-ph·April 6, 2010

The Calibration of Mid-Infrared Star Formation Rate Indicators

D. Calzetti (1,2), R. C. Kennicutt (3), C. W. Engelbracht (4), C., Leitherer (2), B. T. Draine (5), L. Kewley (6), J. Moustakas (7), M. Sosey, (2), D.A. Dale (8), K. D. Gordon (4), G.X. Helou (9), D.J. Hollenbach (10),, L. Armus (9), G. Bendo (11), C. Bot (9), B. Buckalew (9)

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TL;DR

This study evaluates how well mid-infrared emissions at 8 um and 24 um trace star formation rates in nearby galaxies, revealing non-linear relationships and the influence of metallicity and stellar populations.

Contribution

It provides new calibrations for 24 um-based star formation rate indicators and analyzes the limitations of 8 um emission as a tracer, considering metallicity effects.

Findings

01

24 um emission correlates with star formation but non-linearly.

02

8 um emission is significantly affected by non-ionizing stellar populations.

03

Calibrations for 24 um SFR indicators are proposed, but none for 8 um.

Abstract

With the goal of investigating the degree to which the mid-infrared emission traces the star formation rate (SFR), we analyze Spitzer 8 um and 24 um data of star-forming regions in a sample of 33 nearby galaxies with available HST/NICMOS images in the Paschen-alpha (1.8756 um) emission line. The galaxies are drawn from the Spitzer Infrared Nearby Galaxies Survey (SINGS) sample, and cover a range of morphologies and a factor ~10 in oxygen abundance. Published data on local low-metallicity starburst galaxies and Luminous Infrared Galaxies are also included in the analysis. Both the stellar-continuum-subtracted 8 um emission and the 24 um emission correlate with the extinction-corrected Pa-alpha line emission, although neither relationship is linear. Simple models of stellar populations and dust extinction and emission are able to reproduce the observed non-linear trend of the 24 um…

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