Comparison of Hα and UV star formation rates in the local volume: systematic discrepancies for dwarf galaxies



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Gil de Paz, Armando and otros, ... (2009) Comparison of Hα and UV star formation rates in the local volume: systematic discrepancies for dwarf galaxies. Astrophysical journal, 706 (1). pp. 599-613. ISSN 0004-637X

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Using a complete sample of ~300 star-forming galaxies within 11 Mpc of the Milky Way, we evaluate the consistency between star formation rates (SFRs) inferred from the far ultraviolet (FUV) non-ionizing continuum and Hα nebular emission, assuming standard conversion recipes in which the SFR scales linearly with luminosity at a given wavelength. Our analysis probes SFRs over 5 orders of magnitude, down to ultra-low activities on the order of ~10^–4 M_☉ yr^–1. The data are drawn from the 11 Mpc Hα and Ultraviolet Galaxy Survey (11HUGS), which has obtained Hα fluxes from ground-based narrowband imaging, and UV fluxes from imaging with GALEX. For normal spiral galaxies (SFR ~ 1 M_☉ yr^–1), our results are consistent with previous work which has shown that FUV SFRs tend to be lower than Hα SFRs before accounting for internal dust attenuation, but that there is relative consistency between the two tracers after proper corrections are applied. However, a puzzle is encountered at the faint end of the luminosity function. As lower luminosity dwarf galaxies, roughly less active than the Small Magellanic Cloud, are examined, Hα tends to increasingly underpredict the total SFR relative to the FUV. The trend is evident prior to corrections for dust attenuation, which affects the FUV more than the nebular Hα emission, so this general conclusion is robust to the effects of dust. Although past studies have suggested similar trends, this is the first time this effect is probed with a statistical sample for galaxies with SFR ≤0.1 M_☉ yr^–1. By SFR ~ 0.003 M_☉ yr–1, the average Hα-to-FUV flux ratio is lower than expected by a factor of two, and at the lowest SFRs probed, the ratio exhibits an order of magnitude discrepancy for the handful of galaxies that remain in the sample. A range of standard explanations does not appear to be able to fully account for the magnitude of the systematic. Some recent work has argued for a stellar initial mass function which is deficient in high-mass stars in dwarf and low surface brightness galaxies, and we also consider this scenario. Under the assumption that the FUV traces the SFR in dwarf galaxies more robustly, the prescription relating Hα luminosity to SFR is re-calibrated for use in the low SFR regime when FUV data are not available.

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© 2009. The American Astronomical Society. All rights reserved. Artículo firmado por 17 autores. J. C. L. thanks the astronomers at Carnegie Observatories, in particular Alan Dressler, Luis Ho, Andy McWilliam, and Steve Schechtman, for helpful conversations over the course of this work. Support for J. C. L. has been provided by NASA through Hubble Fellowship grant HST-HF-01198 awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS5-26555. A.G.dP. acknowledges partial support from the Spanish Ramón y Cajal program and the Programa Nacional de Astronomía y Astrofísica under grant AYA 2006-02358. C. A. T. thanks the Alexander von Humboldt Foundation for their generous support. This research has made use of the NASA/IPAC Extragalactic Database (NED) which is operated by the Jet Propulsion Laboratory, California Institute of Technology, under contract with the National Aeronautics and Space Administration. Some of the data presented in this paper were obtained from the Multimission Archive at the Space Telescope Science Institute (MAST). Support for MAST for non-HST data is provided by the NASA Office of Space Science via grant NAG5-7584 and by other grants and contract.

Uncontrolled Keywords:Initial mass function; Stellar population synthesis; Lyman continuum escape; Neutral gas galaxies; Forming galaxies; Irregular galaxies; Starburst galaxies; Synthesis models; Formation history; Far-ultraviolet
Subjects:Sciences > Physics > Astrophysics
Sciences > Physics > Astronomy
ID Code:35609
Deposited On:10 Feb 2016 16:47
Last Modified:10 Dec 2018 15:05

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