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Autori principali: Günay, Burcu, Gordon, Karl D., Peek, Joshua E. G., Decleir, Marjorie, Van De Putte, Dries, Tchernyshyov, Kirill, Burton, Michael G.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.17550
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author Günay, Burcu
Gordon, Karl D.
Peek, Joshua E. G.
Decleir, Marjorie
Van De Putte, Dries
Tchernyshyov, Kirill
Burton, Michael G.
author_facet Günay, Burcu
Gordon, Karl D.
Peek, Joshua E. G.
Decleir, Marjorie
Van De Putte, Dries
Tchernyshyov, Kirill
Burton, Michael G.
contents We introduce a new photometric mapping method for the James Webb Space Telescope (JWST) to measure the spatial distribution of carbonaceous dust, siliceous dust and water ice by using absorption features arising from the grains in the dense interstellar medium (ISM). Employing NIRCam and MIRI imaging filters, low-resolution spectroscopic data can be obtained to measure the optical depths of the 3.0-$μ$m water ice -OH feature, the 3.4-$μ$m aliphatic hydrocarbon -CH feature, and the 10-$μ$m silicate -SiO feature for large fields of view. This method provides extensive statistical data of the grains across wide fields in the ISM at minimal observing cost. In this study, we present its application on observational data from the literature to validate the measured optical depths and simulations to assess the accuracy of the method under various conditions. We showed that the photometric method can be employed to obtain reasonably accurate measurements of optical depth. We demonstrate that JWST optical depth maps enable the independent exploration of abundance distributions of major grain components across a wide spatial coverage in the ISM.
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spellingShingle Photometric Mapping of Carbonaceous/Siliceous Dust and Water Ice in the ISM with JWST: Applications to the Dense Sightlines
Günay, Burcu
Gordon, Karl D.
Peek, Joshua E. G.
Decleir, Marjorie
Van De Putte, Dries
Tchernyshyov, Kirill
Burton, Michael G.
Instrumentation and Methods for Astrophysics
Astrophysics of Galaxies
We introduce a new photometric mapping method for the James Webb Space Telescope (JWST) to measure the spatial distribution of carbonaceous dust, siliceous dust and water ice by using absorption features arising from the grains in the dense interstellar medium (ISM). Employing NIRCam and MIRI imaging filters, low-resolution spectroscopic data can be obtained to measure the optical depths of the 3.0-$μ$m water ice -OH feature, the 3.4-$μ$m aliphatic hydrocarbon -CH feature, and the 10-$μ$m silicate -SiO feature for large fields of view. This method provides extensive statistical data of the grains across wide fields in the ISM at minimal observing cost. In this study, we present its application on observational data from the literature to validate the measured optical depths and simulations to assess the accuracy of the method under various conditions. We showed that the photometric method can be employed to obtain reasonably accurate measurements of optical depth. We demonstrate that JWST optical depth maps enable the independent exploration of abundance distributions of major grain components across a wide spatial coverage in the ISM.
title Photometric Mapping of Carbonaceous/Siliceous Dust and Water Ice in the ISM with JWST: Applications to the Dense Sightlines
topic Instrumentation and Methods for Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2507.17550