Abstract
We present first results from the KMOS Redshift One Spectroscopic Survey
(KROSS), an ongoing large kinematical survey of a thousand, z~1 star forming
galaxies, with VLT KMOS. Out of the targeted galaxies (~500 so far), we detect
and spatially resolve Ha emission in ~90% and 77% of the sample respectively.
Based on the integrated Ha flux measurements and the spatially resolved maps we
derive a median star formation rate (SFR) of ~7.0 Msun/yr and a median physical
size of <r$_e$> = 5.1kpc. We combine the inferred SFRs and effective
radii measurements to derive the star formation surface densities (\SigmaSFR)
and present a "resolved" version of the star formation main sequence (MS) that
appears to hold at sub-galactic scales, with similar slope and scatter as the
one inferred from galaxy integrated properties. Our data also yield a trend
between \SigmaSFR and \Delta(sSFR) (distance from the MS) suggesting that
galaxies with higher sSFR are characterised by denser star formation activity.
Similarly, we find evidence for an anti-correlation between the gas phase
metallicity (Z) and the \Delta(sSFR), suggesting a 0.2dex variation in the
metal content of galaxies within the MS and significantly lower metallicities
for galaxies above it. The origin of the observed trends between \SigmaSFR -
\Sigma(sSFR) and Z - \Delta(sSFR) could be driven by an interplay between
variations of the gas fraction or the star formation efficiency of the galaxies
along and off the MS. To address this, follow-up observations of the our sample
that will allow gas mass estimates are necessary.
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