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Nebular Dust Attenuation with the Balmer and Paschen Lines based on the MaNGA Survey

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arxiv 2410.05067 v1 pith:FP7MIE5U submitted 2024-10-07 astro-ph.GA

Nebular Dust Attenuation with the Balmer and Paschen Lines based on the MaNGA Survey

classification astro-ph.GA
keywords attenuationdustlinesnebularcurvebalmerpaschenemission-line
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Dust attenuations observed by stars and ionized gas are not necessarily the same. The lack of observational constraints on the nebular dust attenuation curve leaves a large uncertainty when correcting nebular dust attenuation with stellar continuum-based attenuation curves. Making use of the DAP catalogs of the MaNGA survey, we investigate the nebular dust attenuation of HII regions traced by the Balmer and Paschen lines. Based on a simple simulation, we find that star-forming regions on kpc scales favor the classic foreground screen dust model rather than the uniform mixture model. We propose a novel approach to fit the dust attenuation curve using the emission-line fluxes directly. For strong hydrogen recombination lines (e.g., H$\gamma$, H$\delta$, and H$\epsilon$), the slopes of the nebular attenuation curve can be well determined and are found to be in good agreement with the Fitzpatrick Milky Way extinction curve with an accuracy of $\lesssim 4\%$ in terms of the correction factor. However, severe contaminations/systematic uncertainties prevent us from obtaining reasonable values of the slopes for weak recombination lines (e.g., the high-order Balmer lines or the Paschen lines). We discuss how the choice of emission line measurement methods affects the results. Our results demonstrate the difficulty of deriving an average nebular dust attenuation curve given the current ground-based emission-line measurements.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Mapping Dust Attenuation at Kiloparsec Scales. III. The 2175\AA\ Bump

    astro-ph.GA 2026-07 accept novelty 6.0

    The 2175Å attenuation bump is strongest at low Σ_Hα/Σ_* (especially non-SF regions) while absolute strength tracks dust column, supporting local radiation-field processing of its carriers.