Euclid Q1 reveals spatial variations of the extinction law in the dense cloud LDN 1641
Abstract
Dust extinction laws are essential for precision photometry and provide a direct probe of grain properties, but their behaviour in dense molecular clouds remains poorly constrained at high extinction. Using Euclid Quick Data Release 1 (Q1) imaging of the Orion A dark cloud Lynds Dark Nebula 1641 (LDN 1641), we measured the extinction law from the broad Visible Instrument (VIS) band and the Near-Infrared Spectrometer and Photometer (NISP) Y, J, and H bands along sightlines reaching AV 30 mag towards the cloud core. We derived colour-excess ratios E(λ-H)/E(Y-H) from linear fits to colour--colour diagrams of (λ-H) versus (Y-H) and converted them into relative extinctions, Aλ/AH. The near-infrared extinction in LDN 1641 is well described by a power law, Aλ λ-α, with α=1.57 0.06, corresponding to A VIS/AH=4.23 0.24, AY/AH=2.13 0.18, and AJ/AH=1.47 0.11. We further find significant spatial variations: α changes by up to 27\%, with systematically smaller values and therefore flatter extinction curves in higher-extinction regions. This flattening is consistent with an enhanced large-grain population and supports substantial grain growth from the diffuse outskirts to the dense core of a single molecular cloud.
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