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Autori principali: Pendleton, Yvonne J., Geballe, T. R., Chu, Laurie E. U., Decleir, Marjorie, Gordon, Karl D., Tielens, A. G. G. M., Allamandola, Louis J., Bouwman, Jeroen, Chiar, J. E., Dewitt, Curtis, Gunay, Burcu, Henning, Thomas, Mennella, Vito, Palumbo, M. E., Potapov, Alexey, Rashman, Maisie, Zeegers, Sascha
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.12601
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author Pendleton, Yvonne J.
Geballe, T. R.
Chu, Laurie E. U.
Decleir, Marjorie
Gordon, Karl D.
Tielens, A. G. G. M.
Allamandola, Louis J.
Bouwman, Jeroen
Chiar, J. E.
Dewitt, Curtis
Gunay, Burcu
Henning, Thomas
Mennella, Vito
Palumbo, M. E.
Potapov, Alexey
Rashman, Maisie
Zeegers, Sascha
author_facet Pendleton, Yvonne J.
Geballe, T. R.
Chu, Laurie E. U.
Decleir, Marjorie
Gordon, Karl D.
Tielens, A. G. G. M.
Allamandola, Louis J.
Bouwman, Jeroen
Chiar, J. E.
Dewitt, Curtis
Gunay, Burcu
Henning, Thomas
Mennella, Vito
Palumbo, M. E.
Potapov, Alexey
Rashman, Maisie
Zeegers, Sascha
contents Infrared spectra of hydrocarbon dust absorption bands toward the bright hypergiant Cygnus OB2-12 are compared to published spectra of the Quintuplet Cluster, a sightline to the Galactic center. The Cyg OB2-12 data include a new ground-based 2.86-3.70 microns spectrum and a previously published, but here further analyzed, spectrum of the 5.50-7.34 microns region. Higher spectral resolution data for the Cyg OB2-12 sightline in the 3 micron region allows a detailed comparison of the 3.4 micron aliphatic bands to those observed toward the Quintuplet. Despite differences in interstellar environments along each sightline, strong similarities are observed in the central wavelengths and relative strengths for bands at 3.3, 3.4, 5.85, 6.2, and 6.85 microns. Analysis of these bands, produced by aromatic, aliphatic, olefinic, hydrogenated, and oxygenated components, shows that carbonaceous dust is a significant component of the diffuse interstellar medium, second in abundance only to silicates, and is primarily aromatic in nature. The grains producing these bands likely consist of large aromatic carbon cores with thin aliphatic mantles composed of hydrogenated amorphous carbon (HAC). Laboratory analog spectra reproduce the observed aliphatic absorption bands well, supporting the presence of such mantles. We present evidence that the carriers of both the 3.4 micron aliphatic and the 3.3 micron aromatic bands reside exclusively in the diffuse ISM, and that the 3.3 micron bands observed in the diffuse ISM differ from the 3.25 micron band seen in dense clouds, implying chemically distinct carriers.
format Preprint
id arxiv_https___arxiv_org_abs_2508_12601
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Tale of Two Sightlines: Comparison of Hydrocarbon Dust Absorption Bands toward Cygnus OB2-12 and the Galactic Center
Pendleton, Yvonne J.
Geballe, T. R.
Chu, Laurie E. U.
Decleir, Marjorie
Gordon, Karl D.
Tielens, A. G. G. M.
Allamandola, Louis J.
Bouwman, Jeroen
Chiar, J. E.
Dewitt, Curtis
Gunay, Burcu
Henning, Thomas
Mennella, Vito
Palumbo, M. E.
Potapov, Alexey
Rashman, Maisie
Zeegers, Sascha
Astrophysics of Galaxies
Infrared spectra of hydrocarbon dust absorption bands toward the bright hypergiant Cygnus OB2-12 are compared to published spectra of the Quintuplet Cluster, a sightline to the Galactic center. The Cyg OB2-12 data include a new ground-based 2.86-3.70 microns spectrum and a previously published, but here further analyzed, spectrum of the 5.50-7.34 microns region. Higher spectral resolution data for the Cyg OB2-12 sightline in the 3 micron region allows a detailed comparison of the 3.4 micron aliphatic bands to those observed toward the Quintuplet. Despite differences in interstellar environments along each sightline, strong similarities are observed in the central wavelengths and relative strengths for bands at 3.3, 3.4, 5.85, 6.2, and 6.85 microns. Analysis of these bands, produced by aromatic, aliphatic, olefinic, hydrogenated, and oxygenated components, shows that carbonaceous dust is a significant component of the diffuse interstellar medium, second in abundance only to silicates, and is primarily aromatic in nature. The grains producing these bands likely consist of large aromatic carbon cores with thin aliphatic mantles composed of hydrogenated amorphous carbon (HAC). Laboratory analog spectra reproduce the observed aliphatic absorption bands well, supporting the presence of such mantles. We present evidence that the carriers of both the 3.4 micron aliphatic and the 3.3 micron aromatic bands reside exclusively in the diffuse ISM, and that the 3.3 micron bands observed in the diffuse ISM differ from the 3.25 micron band seen in dense clouds, implying chemically distinct carriers.
title A Tale of Two Sightlines: Comparison of Hydrocarbon Dust Absorption Bands toward Cygnus OB2-12 and the Galactic Center
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2508.12601