The Strength of the 2175 Feature in the Attenuation Curves of Galaxies at 0.1 < z 3

We update the spectral modeling code MAGPHYS to include a 2175 absorption feature in its UV to near-IR dust attenuation prescription. This allows us to determine the strength of this feature and the shape of the dust attenuation curve in ∼5000 star-forming galaxies at in the COSMOS field. We find th...

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Veröffentlicht in:	The Astrophysical journal 2020-01, Vol.888 (2), p.108
Hauptverfasser:	Battisti, A. J., Cunha, E. da, Shivaei, I., Calzetti, D.
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Sprache:	eng
Schlagworte:	Absorption Astronomical models Astrophysics Attenuation Cosmic dust Cosmos Dust Galaxies Galaxy evolution Infrared galaxies Interstellar dust Interstellar dust extinction Interstellar medium Milky Way Optical analysis Optical thickness Radiative transfer Star & galaxy formation Star formation Star formation rate Stars & galaxies Strength Ultraviolet absorption
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creator	Battisti, A. J. Cunha, E. da Shivaei, I. Calzetti, D.
description	We update the spectral modeling code MAGPHYS to include a 2175 absorption feature in its UV to near-IR dust attenuation prescription. This allows us to determine the strength of this feature and the shape of the dust attenuation curve in ∼5000 star-forming galaxies at in the COSMOS field. We find that a 2175 absorption feature of ∼1/3 the strength of that in the Milky Way is required for models to minimize residuals. We characterize the total effective dust attenuation curves as a function of several galaxy properties and find that the UV slopes of the attenuation curve for COSMOS galaxies show a strong dependence on star formation rate (SFR) and total dust attenuation (AV), such that galaxies with higher SFR and AV have shallower curves and vice versa. These results are consistent with expectations from radiative transfer that attenuation curves become shallower as the effective dust optical depth increases. We do not find significant trends in the strength of the 2175 absorption feature as a function of galaxy properties, but this may result from the high uncertainties associated with this measurement. The updated code is publicly available online (following acceptance).
doi_str_mv	10.3847/1538-4357/ab5fdd
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subjects	Absorption Astronomical models Astrophysics Attenuation Cosmic dust Cosmos Dust Galaxies Galaxy evolution Infrared galaxies Interstellar dust Interstellar dust extinction Interstellar medium Milky Way Optical analysis Optical thickness Radiative transfer Star & galaxy formation Star formation Star formation rate Stars & galaxies Strength Ultraviolet absorption
title	The Strength of the 2175 Feature in the Attenuation Curves of Galaxies at 0.1 < z 3
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