Modeling IR spectral energy distributions: a pilot study of starburst parameters and silicate absorption curves for some GOALS galaxies

Modeling IR spectral energy distributions: a pilot study of starburst parameters and silicate absorption curves for some GOALS galaxies

This paper describes a pilot study into the spectral energy distribution (SED) fitting and the derivation of physical parameters for 19 galaxies observed as part of the Great Observatories All-sky LIRG Survey (GOALS) survey as observed with the Spitzer Space Telescope . For this we have used the pan...

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Veröffentlicht in:Astrophysics and space science 2011-05, Vol.333 (1), p.225-239
Hauptverfasser: Dopita, Michael A., Armus, Lee, Kewley, Lisa J., Rich, Jeff A., Sanders, Dave, Appleton, Phillip N., Chan, Ben H. P., Charmandaris, Vassilis, Evans, Aaron S., Frayer, David T., Howell, Justin H., Inami, Hanae, Mazzarella, Joseph A., Petric, Andreea, Stierwalt, Sabrina, Surace, Jason
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Schlagworte:
Absorption
Astrobiology
Astronomical instruments
Astronomy
Astrophysics
Astrophysics and Astroparticles
Cosmology
Extinction
Fittings
Galaxies
Mathematical models
Observations and Techniques
Original Article
Physics
Physics and Astronomy
Pilots
Silicates
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Spectral energy distribution
Star & galaxy formation
Starbursts
Stars & galaxies
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container_end_page 239
container_issue 1
container_start_page 225
container_title Astrophysics and space science
container_volume 333
creator Dopita, Michael A.
Armus, Lee
Kewley, Lisa J.
Rich, Jeff A.
Sanders, Dave
Appleton, Phillip N.
Chan, Ben H. P.
Charmandaris, Vassilis
Evans, Aaron S.
Frayer, David T.
Howell, Justin H.
Inami, Hanae
Mazzarella, Joseph A.
Petric, Andreea
Stierwalt, Sabrina
Surace, Jason
description This paper describes a pilot study into the spectral energy distribution (SED) fitting and the derivation of physical parameters for 19 galaxies observed as part of the Great Observatories All-sky LIRG Survey (GOALS) survey as observed with the Spitzer Space Telescope . For this we have used the pan-spectral fitting tools developed in a series of papers by Dopita and his co-workers. We show that the standard Lee and Draine ‘astronomical silicate’ model cannot provide a good fit to the silicate absorption features as observed in the heavily dust-extinguished ( A V ∼50 mag.) starbursts. We have derived an empirical fit to the ‘starburst silicate’ absorption in these objects. This absorption curve is consistent with the silicate grains being systematically larger in starburst environments than in the local Galactic interstellar medium. We demonstrate the sensitivity of the SED fitting to each of the fitted parameters, and derive these parameters for those galaxies which do not have an embedded AGN. This technique is simple and provides reasonably robust and uniform parameters for the starburst, especially as far as the star formation rate, population of old stars, compactness of the starburst region and total foreground extinction are concerned. However, the chemical abundances and the optical extinction cannot be reliably determined by this analysis, and optical SEDs will also be required to provide a complete characterization of the starburst region and of the surrounding galaxy.
doi_str_mv 10.1007/s10509-010-0569-6
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For this we have used the pan-spectral fitting tools developed in a series of papers by Dopita and his co-workers. We show that the standard Lee and Draine ‘astronomical silicate’ model cannot provide a good fit to the silicate absorption features as observed in the heavily dust-extinguished ( A V ∼50 mag.) starbursts. We have derived an empirical fit to the ‘starburst silicate’ absorption in these objects. This absorption curve is consistent with the silicate grains being systematically larger in starburst environments than in the local Galactic interstellar medium. We demonstrate the sensitivity of the SED fitting to each of the fitted parameters, and derive these parameters for those galaxies which do not have an embedded AGN. This technique is simple and provides reasonably robust and uniform parameters for the starburst, especially as far as the star formation rate, population of old stars, compactness of the starburst region and total foreground extinction are concerned. However, the chemical abundances and the optical extinction cannot be reliably determined by this analysis, and optical SEDs will also be required to provide a complete characterization of the starburst region and of the surrounding galaxy.</abstract><cop>Dordrecht</cop><pub>Springer Netherlands</pub><doi>10.1007/s10509-010-0569-6</doi><tpages>15</tpages></addata></record>
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source Springer Nature - Complete Springer Journals
subjects Absorption
Astrobiology
Astronomical instruments
Astronomy
Astrophysics
Astrophysics and Astroparticles
Cosmology
Extinction
Fittings
Galaxies
Mathematical models
Observations and Techniques
Original Article
Physics
Physics and Astronomy
Pilots
Silicates
Space Exploration and Astronautics
Space Sciences (including Extraterrestrial Physics
Spectral energy distribution
Star & galaxy formation
Starbursts
Stars & galaxies
title Modeling IR spectral energy distributions: a pilot study of starburst parameters and silicate absorption curves for some GOALS galaxies
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