Using cosmological volume simulations and a custom built sub-grid model for Pop~III star formation, we examine the baseline dust extinction in the first galaxies due to Pop~III metal enrichment in the first billion years of cosmic history. We find that while the most enriched, high-density lines of sight in primordial galaxies can experience a measurable amount of extinction from Pop~III dust (E(B−V)max=0.07,AV,max≈0.28), the average extinction is very low with ⟨E(B−V)⟩≲10−3. We derive a power-law relationship between dark matter halo mass and extinction of E(B−V)∝Mhalo0.80. Performing a Monte Carlo parameter study, we establish the baseline reddening of the UV spectra of dwarf galaxies at high redshift due to Pop~III enrichment only. With this method, we find ⟨βUV⟩−2.51±0.07, which is both nearly halo mass and redshift independent.
@article{arxiv.1709.06647,
title = {Dust in the first galaxies},
author = {Jason Jaacks and Steven L. Finkelstein and Volker Bromm},
journal= {arXiv preprint arXiv:1709.06647},
year = {2018}
}