Balmer Decrements and Nebular-Stellar Reddening in JADES Galaxies at 2.7<z<7

Abstract

We aim to characterize nebular and stellar reddening in star-forming galaxies as a function of global galaxy properties (stellar mass, SFR, metallicity) at 2.7 < z< 7.0. We also provide a prescription to convert SED-based E(B-V)star to E(B-V)gas when direct measurements of nebular reddening are unavailable. Our results are based on JWST/NIRSpec measurements of both individual spectra, with a sample of 283 galaxies, and composite spectra, including a larger sample of 327 galaxies. We estimate nebular reddening using the Balmer decrement (Hα/Hβ) above 108.5 M, where the sample is representative. Stellar reddening and SFRs are derived through Prospector SED fitting, while gas-phase metallicities are estimated from strong emission-line ratios. At fixed stellar mass, Balmer decrements remain consistent within uncertainties across our redshift range, indicating that stellar mass primarily determines the overall dust column even by z 7. We find that differential reddening ( E(B-V) E(B-V)gas - E(B-V)star) scales linearly with mass and SFR at z 2.7 - 4.0, but shows no mass or SFR dependence above z 4.0. We find evidence for smaller E(B-V) above z 5.0, suggesting that nebular emission and stellar continuum probe increasingly similar dust columns towards higher redshift. Finally, we find that nebular reddening correlates strongly with metallicity out to z 5, whereas the correlation between stellar reddening and metallicity is weaker or absent. Together, these results suggest that both dust mass and geometry play a significant role in shaping the observed reddening of high-redshift galaxies.

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