http://arxiv.org/abs/2211.16527
We investigate the relationship between environment, morphology, and the star formation rate — stellar mass relation derived from a sample of star-forming galaxies (commonly referred to as the `star formation main sequence’) in the COSMOS field from 0 < z < 3.5. We constructed and fit the FUV–FIR SEDs of our stellar mass-selected sample of 111,537 galaxies with stellar and dust emission models using the public packages MAGPHYS and SED3FIT. From the best fit parameter estimates, we construct the star formation rate — stellar mass relation as a function of redshift, local environment, NUVrJ color diagnostics, and morphology. We find that the shape of the main sequence derived from our color-color and sSFR-selected star forming galaxy population, including the turnover at high stellar mass, does not exhibit an environmental dependence at any redshift from 0 < z < 3.5. We investigate the role of morphology in the high mass end of the SFMS to determine whether bulge growth is driving the high mass turnover. We find that star-forming galaxies experience this turnover independent of bulge-to-total ratio, strengthening the case that the turnover is due to the disk component’s specific star formation rate evolving with stellar mass rather than bulge growth.
K. Cooke, J. Kartaltepe, C. Rose, et. al.
Thu, 1 Dec 22
17/85
Comments: 20 pages, 12 figures, accepted in ApJ 15-Nov-2022