The evolving relation between star formation rate and stellar mass in the VIDEO survey since z=3

We investigate the star formation rate (SFR) and stellar mass, M-*, relation of a star-forming (SF) galaxy (SFG) sample in the XMM-LSS field to z similar to 3.0 using the near-infrared data from the VISTA Deep Extragalactic Observations (VIDEO) survey. Combining VIDEO with broad-band photometry, we use the SED fitting algorithm CIGALE to derive SFRs and M-* and have adapted it to account for the full photometric redshift probability-distribution-function uncertainty. Applying an SF selection using the D4000 index, we find evidence for strong evolution in the normalization of the SFR-M-* relation out to z similar to 3 and a roughly constant slope of (SFR proportional to M-*(alpha)) alpha = 0.69 +/- 0.02 to z similar to 1.7. We find this increases close to unity towards z similar to 2.65. Alternatively, if we apply a colour selection, we find a distinct turnover in the SFR-M-* relation between 0.7 less than or similar to z less than or similar to 2.0 at the high-mass end, and suggest that this is due to an increased contamination from passive galaxies. We find evolution of the specific SFR proportional to (1 + z)(2.60) at log(10)(M-*/M-circle dot) similar to 10.5, out to z less than or similar to 2.4 with an observed flattening beyond z similar to 2 with increased stellar mass. Comparing to a range of simulations we find the analytical scaling relation approaches, that invoke an equilibrium model, a good fit to our data, suggesting that a continual smooth accretion regulated by continual outflows may be a key driver in the overall growth of SFGs.