Exploration of the Near-Infrared Colors of Cold Y Dwarfs from the Ground and Space

Abstract

JWST has provided critical mid-infrared data for cold brown dwarfs. It has also provided low-resolution near-infrared spectra, and for faint sources these are the first spectra at these wavelengths. We use these data and other literature sources to synthesize near-infrared photometry on the MKO system for 19 T and Y dwarfs, on the Euclid system for 44 T and Y dwarfs, and on the Roman system for 48 T and Y dwarfs. We also synthesize Euclid IE magnitudes for 15 T and Y dwarfs. Using the Beiler et al. 2024 observational effective temperatures (Teff), together with ATMO 2020++ model colors, we show that the absolute 4.6um magnitude can be used as a proxy for Teff. We present a polynomial fit to the MW2:Teff relationship for cool dwarfs with 250 < Teff K < 1000. We select five Y dwarfs with 275 < Teff K < 400 which have a range in near- to mid-infrared colors. Comparison of the JWST spectral energy distribution to ATMO 2020++ models indicate that Y dwarfs which are bluer in J - W2 are lower gravity or more metal-rich than their redder counterparts, with stronger CO and CO2 absorption at 4.2 < lambda um < 4.9. The near-infrared color diagrams show significant scatter, with complex dependencies on Teff, metallicity and gravity. In order to disentangle these effects, opacity sources for cool model atmospheres need to be more complete at lambda < 1um.