http://arxiv.org/abs/2208.14475
We derive the spatial and wavelength behavior of dust attenuation in the multiple-armed spiral galaxy VV 191b using backlighting by the superimposed elliptical system VV 191a in a pair with an exceptionally favorable geometry for this measurement. Imaging using the James Webb Space Telescope (JWST) and the Hubble Space Telescope (HST) spans the wavelength range 0.3-4.5 microns with high angular resolution, tracing the dust in detail from 0.6 to 1.5 microns. Distinct dust lanes are found to continue well beyond the bright spiral arms, and trace a complex web, not always following the spiral arm pitch, with a very sharp radial cutoff near 1.7 Petrosian radii. We present attenuation profiles and coverage statistics in each band at radii 14-21 kpc. We derive the attenuation law with wavelength; largely thanks to the leverage provided by the 1.5-micron measurements, the data both within and between the dust lanes clearly favor a steeper reddening behavior (R_V ~ 3.3 between 0.6 and 1.5 microns) than found for starbursts and star-forming regions of galaxies. The value of R appears to shift to larger values at increasing wavelengths (R~3.5 between 0.9 and 1.5 microns). For Milky Way-like grain populations, these low values suggests that most of the dust structure is spatially resolved at the 60-pc level. Mixing regions of different column density would flatten the wavelength behavior(larger R_V). The NIRCam images reveal a lens arc from a distant background galaxy at z~3.2$, spanning 90 degrees azimuthally at 2.8″ from the foreground elliptical galaxy nucleus, plus a counterimage and additional weakly-lensed background galaxy. The lens model and imaging data give a mass/light ratio M/L_B=6.6 in solar units within the Einstein radius 1.8 kpc.
W. Keel, R. Windhorst, R. Jansen, et. al.
Thu, 1 Sep 22
10/68
Comments: Submitted to Astron. J
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