No Redshift Evolution of Dust Temperatures from $0 < z < 2$

Abstract: Some recent literature has claimed there to be an evolution in galaxies' dust temperatures towards warmer (or colder) spectral energy distributions (SEDs) between low and high redshift. These conclusions are driven by both theoretical models and empirical measurement. Such claims sometimes contradict one another and are prone to biases in samples or SED fitting techniques. What has made direct comparisons difficult is that there is no uniform approach to fitting galaxies' infrared/millimeter SEDs. Here we aim … Show more

“…Each galaxy's FIR/millimeter SED is fit to a modified blackbody added piecewise with a mid-IR power law. We utilize a technique similar to that described in Casey (2012), but replace least-squares fitting with Bayesian analysis; the full tool will be presented in a forthcoming publication (Drew & Casey 2022). The mid-IR power law is joined to the modified blackbody at the point where the blackbody slope is equal to the power-law index α MIR = 2 (consistent with other works, e.g., Kovács et al 2010;Casey 2012;U et al 2012).…”

Searching Far and Long. I. Pilot ALMA 2 mm Follow-up of Bright Dusty Galaxies as a Redshift Filter

“…Each galaxy's FIR/millimeter SED is fit to a modified blackbody added piecewise with a mid-IR power law. We utilize a technique similar to that described in Casey (2012), but replace least-squares fitting with Bayesian analysis; the full tool will be presented in a forthcoming publication (Drew & Casey 2022). The mid-IR power law is joined to the modified blackbody at the point where the blackbody slope is equal to the power-law index α MIR = 2 (consistent with other works, e.g., Kovács et al 2010;Casey 2012;U et al 2012).…”

Searching Far and Long. I. Pilot ALMA 2 mm Follow-up of Bright Dusty Galaxies as a Redshift Filter