Resolving dust and Lyα emission in a lensed galaxy at the epoch of reionization with JWST/CANUCS
Abstract
Lyman α emission is highly sensitive to dust and neutral hydrogen and is therefore expected to be strongly suppressed in dusty or gas-rich galaxies during the epoch of reionization (EoR). Nevertheless, numerous moderately dusty Lyα emitters (LAEs) are observed at this epoch, suggesting that complex interstellar medium (ISM) geometries and feedback-driven outflows may facilitate Lyα escape. We investigate the dust, gas, and stellar properties of the gravitationally lensed LAE HCM 6A at z=6.5676 to characterize its multiphase ISM and the physical conditions regulating Lyα escape. We combine JWST/NIRISS slitless spectroscopy, HST+JWST/NIRCam imaging, and JWST/NIRSpec slit spectra from the CANUCS program. Using a customized BAGPIPES SED-fitting framework with a flexible attenuation law, we derive stellar, nebular, and dust properties on integrated (), slit-level (0.1 kpc), and pixel-level (25 pc) scales, enabled by strong lensing (μ ≈ 8.3-9.1). A Lyα map from SLEUTH traces the spatial distribution of Lyα emission. We measure an unlensed stellar mass of M = 8.3-8.4 and an intrinsic UV magnitude of M UV = -19.8 0.1. The older region (S1) is moderately dusty with consistent stellar and nebular attenuation indicators, implying a uniform ISM geometry, while the youngest region (S3) shows strong discrepancies among dust tracers, indicating a feedback-shaped multiphase ISM. Lyα emission arises primarily from S3, where a dust-cleared central clump enables efficient Lyα escape. We find Calzetti-like attenuation curves with a UV bump that strengthens with stellar age and decreasing AV. Our observations provide a uniquely detailed, spatially resolved view of a moderately dusty LAE during the EoR, demonstrating how feedback and multiphase ISM structure govern Lyα escape.
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