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SHARDS: stellar populations and star formation histories of a mass-selected sample of 0.65 < z < 1.1 galaxies

We report on results from the analysis of a stellar mass-selected (log (M */M) ≥ 9.0) sample of 1644 galaxies at 0.65 < z < 1.1 with ultradeep (mAB < 26.5) optical medium-band (R ∼ 50) photometry from the Survey for High-z Absorption Red and Dead Sources (SHARDS). The spectral resolution of...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 2013-09, Vol.434 (3), p.2136-2152
Main Authors: Hernán-Caballero, Antonio, Alonso-Herrero, Almudena, Pérez-González, Pablo G., Cardiel, Nicolás, Cava, Antonio, Ferreras, Ignacio, Barro, Guillermo, Tresse, Laurence, Daddi, Emanuele, Cenarro, Javier, Conselice, Christopher J., Guzmán, Rafael, Gallego, Jesús
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Language:English
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Summary:We report on results from the analysis of a stellar mass-selected (log (M */M) ≥ 9.0) sample of 1644 galaxies at 0.65 < z < 1.1 with ultradeep (mAB < 26.5) optical medium-band (R ∼ 50) photometry from the Survey for High-z Absorption Red and Dead Sources (SHARDS). The spectral resolution of SHARDS allows us to consistently measure the strength of the 4000 Å spectral break [D n (4000), an excellent age indicator for the stellar populations of quiescent galaxies] for all galaxies at z ∼ 0.9 down to log (M */M) ∼ 9. The D n (4000) index cannot be resolved from broad-band photometry, and measurements from optical spectroscopic surveys are typically limited to galaxies at least 10 times more massive. When combined with the rest-frame U − V colour, (U − V) r , D n (4000) provides a powerful diagnostic of the extinction affecting the stellar population that is relatively insensitive to degeneracies with age, metallicity or star formation history. We use this novel approach to estimate de-reddened colours and light-weighted stellar ages for individual sources. We explore the relationships linking stellar mass, (U − V) r , and D n (4000) for the sources in the sample, and compare them to those found in local galaxies. The main results are: (a) both D n (4000) and (U − V) r correlate with M *. The dispersion in D n (4000) values at a given M * increases with M *, while the dispersion for (U − V) r decreases due to the higher average extinction prevalent in massive star-forming galaxies. (b) For massive galaxies, we find a smooth transition between the blue cloud and red sequence in the intrinsic U − V colour, in contrast with other recent results. (c) At a fixed stellar age, we find a positive correlation between extinction and stellar mass. (d) The fraction of sources with declining or halted star formation increases steeply with the stellar mass, from ∼5 per cent at log (M */M) = 9.0-9.5 to ∼80 per cent at log (M */M) > 11, in agreement with downsizing scenarios.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stt1165