KURVS: chemical properties from multiple strong line calibrations for star-forming galaxies at z1.5

Abstract

Gas-phase oxygen abundance (metallicity) properties can be constrained through emission line analyses, and are of great importance to investigate galaxy evolution histories. We present an analysis of the integrated and spatially-resolved rest-frame optical emission line properties of the ionised gas in 43 star-forming galaxies at z1.5 in the KMOS Ultra-deep Rotational Velocity Survey (KURVS). Using the [NII]λ6584/Hα (N2), ([OII]λλ3727,9+[OIII]λλ4959,5007)/Hβ (R23), and for the first time [NII]λ6584/[OII]λλ3727,9 (N2O2) indicators at this redshift, we measure the gas-phase metallicities and their radial gradients. On 4-kpc scales metallicity gradients measured from N2O2 and those measured from N2 are in good agreement when considering the spatial distributions of dust in each galaxy, as parameterised by dust attenuation radial gradients. We report a nearly flat metallicity gradient distribution typically at z1.5, with the 50th, 16th and 84th percentiles at 0.01, -0.03, and 0.05 dex kpc-1, respectively. The findings agree well with previous observational studies and simulations at this epoch. We ascribe the observed negative metallicity gradients to a natural result from self-regulating systems, and the positive ones to potential galactic fountains and higher merger rates.

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