English

A redshift-dependent IRX-$\beta$ dust attenuation relation for TNG50 galaxies

Astrophysics of Galaxies 2020-08-28 v2

Abstract

We study the relation between the UV-slope, β\beta, and the ratio between the infrared- and UV-luminosities (IRX) of galaxies from TNG50, the latest installment of the IllustrisTNG galaxy formation simulations. We select 7280 star-forming main-sequence (SFMS) galaxies with stellar mass 109M10^9M_\odot at redshifts 0z40 \leq z \leq 4 and perform radiative transfer with SKIRT to model effects of interstellar medium dust on the emitted stellar light. Assuming a Milky Way (MW) dust type and a dust-to-metal ratio of 0.3, we find that TNG50 SFMS galaxies generally agree with observationally-derived IRX-β\beta relations at z1z \lesssim 1. However, we find a redshift-dependent systematic offset with respect to empirically-derived local relations, with the TNG50 IRX-β\beta relation shifting towards lower β\beta and steppening at higher redshifts. This is partially driven by variations in the dust-uncorrected UV-slope of galaxies, due to different star-formation histories of galaxies selected at different cosmic epochs; we suggest the remainder of the effect is caused by differences in the effective dust attenuation curves (EDACs) of galaxies as a function of redshift. We find a typical galaxy-to-galaxy variation of 0.3 dex in IRX at fixed β\beta, correlated with intrinsic galaxy properties: galaxies with higher star-formation rates, star-formation efficiencies, gas metallicities and stellar masses exhibit larger IRX values. We demonstrate a degeneracy between stellar age, dust geometry and dust composition: z=4z=4 galaxies with a Small Magellanic Cloud dust type follow the same IRX-β\beta relation as low-redshift galaxies with MW dust. We provide a redshift-dependent fitting function for the IRX-β\beta relation for MW dust based on our models.

Keywords

Cite

@article{arxiv.2001.04992,
  title  = {A redshift-dependent IRX-$\beta$ dust attenuation relation for TNG50 galaxies},
  author = {Sebastian Schulz and Gergö Popping and Annalisa Pillepich and Dylan Nelson and Mark Vogelsberger and Federico Marinacci and Lars Hernquist},
  journal= {arXiv preprint arXiv:2001.04992},
  year   = {2020}
}

Comments

The paper has been accepted for publishing in MNRAS

R2 v1 2026-06-23T13:11:15.567Z