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Galaxy and Mass Assembly (GAMA): Dust obscuration in galaxies and their recent star formation histories

Authors :
Wijesinghe, D. B.
Hopkins, A. M.
Sharp, R.
Gunawardhana, M.
Brough, S.
Sadler, E. M.
Driver, S.
Baldry, I.
Bamford, S.
Liske, J.
Loveday, J.
Norberg, P.
Peacock, J.
Popescu, C. C.
Tuffs, R.
Bland-Hawthorn, J.
Cameron, E.
Croom, S.
Frenk, C.
Hill, D.
Jones, D. H.
van Kampen, E.
Kelvin, L.
Kuijken, K.
Madore, B.
Nichol, B.
Parkinson, H.
Pimbblet, K. A.
Prescott, M.
Robotham, A. S. G.
Seibert, M.
Simmat, E.
Sutherland, W.
Taylor, E.
Thomas, D.
Publication Year :
2010

Abstract

We present self-consistent star formation rates derived through pan-spectral analysis of galaxies drawn from the Galaxy and Mass Assembly (GAMA) survey. We determine the most appropriate form of dust obscuration correction via application of a range of extinction laws drawn from the literature as applied to Halpha, [O{II}] and UV luminosities. These corrections are applied to a sample of 31,508 galaxies from the GAMA survey at z < 0.35. We consider several different obscuration curves, including those of Milky Way, Calzetti (2001) and Fischera and Dopita (2005) curves and their effects on the observed luminosities. At the core of this technique is the observed Balmer decrement, and we provide a prescription to apply optimal obscuration corrections using the Balmer decrement. We carry out an analysis of the star formation history (SFH) using stellar population synthesis tools to investigate the evolutionary history of our sample of galaxies as well as to understand the effects of variation in the Initial Mass Function (IMF) and the effects this has on the evolutionary history of galaxies. We find that the Fischera and Dopita (2005) obscuration curve with an R_{v} value of 4.5 gives the best agreement between the different SFR indicators. The 2200A feature needed to be removed from this curve to obtain complete consistency between all SFR indicators suggesting that this feature may not be common in the average integrated attenuation of galaxy emission. We also find that the UV dust obscuration is strongly dependent on the SFR.<br />Comment: Accepted by MNRAS. 13 pages. 8 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1009.0616
Document Type :
Working Paper
Full Text :
https://doi.org/10.1111/j.1365-2966.2010.17599.x