Analysis of the Spatially Resolved V−3.6 μm Colors and Dust Extinction in 257 Nearby NGC and IC Galaxies

We present and analyze spatially resolved maps for the observed V - and g -band to 3.6 μ m flux ratios and the inferred dust-extinction values, A V , for a sample of 257 nearby NGC and IC galaxies. Flux ratio maps are constructed using point-spread function-matched mosaics of Sloan Digital Sky Surve...

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Veröffentlicht in:	The Astrophysical journal 2019-10, Vol.884 (1), p.21
Hauptverfasser:	Kim, Duho, Jansen, Rolf A., Windhorst, Rogier A., Cohen, Seth H., McCabe, Tyler J.
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Sprache:	eng
Schlagworte:	Active galactic nuclei Astrophysics Cosmic dust Digital imaging Dust Extinction Galaxies Hubble Space Telescope Infrared cameras Infrared imagery James Webb Space Telescope Molecular clouds Morphology Mosaics Point spread functions Red shift Scattering Sky surveys (astronomy) Space telescopes Star formation Stars & galaxies Stellar populations
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description	We present and analyze spatially resolved maps for the observed V - and g -band to 3.6 μ m flux ratios and the inferred dust-extinction values, A V , for a sample of 257 nearby NGC and IC galaxies. Flux ratio maps are constructed using point-spread function-matched mosaics of Sloan Digital Sky Survey g - and r -band images and Spitzer /InfraRed Array Camera 3.6 μ m mosaics, with all pixels contaminated by foreground stars or background objects masked out. By applying the β V method, which was recently calibrated as a function of redshift and morphological type by Kim et al., dust-extinction maps were created for each galaxy. The typical 1 σ scatter in β V around the average, both within a galaxy and in each morphological type bin, is ∼20%. Combined, these result in a ∼0.4 mag scatter in A V . β V becomes insensitive to small-scale variations in stellar populations once resolution elements subtend an angle larger than that of a typical giant molecular cloud (∼200 pc). We find noticeably redder V −3.6 μ m colors in the center of star-forming galaxies and galaxies with a weak active galactic nucleus. The derived intrinsic V −3.6 μ m colors for each Hubble type are generally consistent with the model predictions of Kim et al. Finally, we discuss the applicability of the β V dust-correction method to more distant galaxies, for which well-matched Hubble Space Telescope rest-frame visible and James Webb Space Telescope rest-frame ∼3.5 μ m images will become available in the near-future.
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Flux ratio maps are constructed using point-spread function-matched mosaics of Sloan Digital Sky Survey g - and r -band images and Spitzer /InfraRed Array Camera 3.6 μ m mosaics, with all pixels contaminated by foreground stars or background objects masked out. By applying the β V method, which was recently calibrated as a function of redshift and morphological type by Kim et al., dust-extinction maps were created for each galaxy. The typical 1 σ scatter in β V around the average, both within a galaxy and in each morphological type bin, is ∼20%. Combined, these result in a ∼0.4 mag scatter in A V . β V becomes insensitive to small-scale variations in stellar populations once resolution elements subtend an angle larger than that of a typical giant molecular cloud (∼200 pc). We find noticeably redder V −3.6 μ m colors in the center of star-forming galaxies and galaxies with a weak active galactic nucleus. The derived intrinsic V −3.6 μ m colors for each Hubble type are generally consistent with the model predictions of Kim et al. 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subjects	Active galactic nuclei Astrophysics Cosmic dust Digital imaging Dust Extinction Galaxies Hubble Space Telescope Infrared cameras Infrared imagery James Webb Space Telescope Molecular clouds Morphology Mosaics Point spread functions Red shift Scattering Sky surveys (astronomy) Space telescopes Star formation Stars & galaxies Stellar populations
title	Analysis of the Spatially Resolved V−3.6 μm Colors and Dust Extinction in 257 Nearby NGC and IC Galaxies
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