The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis

M. Montargès; E. Cannon; A. De koter; T. Khouri; E. Lagadec; P. Kervella; L. Decin; I. Mcdonald; W. Homan; L. B. F. M. Waters; R. Sahai; C. A. Gottlieb; J. Malfait; S. Maes; B. Pimpanuwat; M. Jeste; T. Danilovich; F. De Ceuster; M.  Van de Sande; D. Gobrecht; S. H. J. Wallström; K. T. Wong; I. El Mellah; F. Herpin; Anita Richards; A. Baudry; Sandra Etoka; Malcolm Gray; T. J. Millar; K. M. Menten; H. S. P. Müller; J. M. C. Plane; J. Yates; Albert Zijlstra

doi:10.1051/0004-6361/202245398

The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis

M. Montargès, E. Cannon, A. De koter, T. Khouri, E. Lagadec, P. Kervella, L. Decin, I. Mcdonald, W. Homan, L. B. F. M. Waters, R. Sahai, C. A. Gottlieb, J. Malfait, S. Maes, B. Pimpanuwat, M. Jeste, T. Danilovich, F. De Ceuster, M. Van de Sande, D. GobrechtS. H. J. Wallström, K. T. Wong, I. El Mellah, F. Herpin, Anita Richards, A. Baudry, Sandra Etoka, Malcolm Gray, T. J. Millar, K. M. Menten, H. S. P. Müller, J. M. C. Plane, J. Yates, Albert Zijlstra

Research output: Contribution to journal › Article › peer-review

Abstract

Context. Low- and intermediate-mass asymptotic giant stars and massive red supergiant stars are important contributors to the chemical enrichment of the Universe. They are among the most efficient dust factories of the Galaxy, harboring chemically rich circumstellar environments. Yet, the processes that lead to dust formation or the large-scale shaping of the mass loss still escape attempts at modeling. Aims. Through the ATOMIUM project, we aim to present a consistent view of a sample of 17 nearby cool evolved stars. Our goals are to unveil the dust-nucleation sites and morphologies of the circumstellar envelope of such stars and to probe ambient environments with various conditions. This will further enhance our understanding of the roles of stellar convection and pulsations, and that of companions in shaping the dusty circumstellar medium. Methods. Here we present and analyze VLT/SPHERE-ZIMPOL polarimetric maps obtained in the visible (645- 820 nm) of 14 out of the 17 ATOMIUM sources. They were obtained contemporaneously with the ALMA high spatial resolution data. To help interpret the polarized signal, we produced synthetic maps of light scattering by dust, through 3D radiative transfer simulations with the RADMC3D code. Results. The degree of linear polarization (DoLP) observed by ZIMPOL spreads across several optical filters. We infer that it primarily probes dust located just outside of the point spread function of the central source, and in or near the plane of the sky. The polarized signal is mainly produced by structures with a total optical depth close to unity in the line of sight, and it represents only a fraction of the total circumstellar dust. The maximum DoLP ranges from 0.03- 0.38 depending on the source, fractions that can be reproduced by our 3D pilot models for grains composed of olivine, melilite, corundum, enstatite, or forsterite. The spatial structure of the DoLP shows a diverse set of shapes, including clumps, arcs, and full envelopes. Only for three sources do we note a correlation between the ALMA CO ν = 0, J = 2-1 and SiO ν = 0, J = 5-4 lines, which trace the gas density, and the DoLP, which traces the dust. Conclusions. The clumpiness of the DoLP and the lack of a consistent correlation between the gas and the dust location show that, in the inner environment, dust formation occurs at very specific sites. This has potential consequences for the derived mass-loss rates and dust-to-gas ratio in the inner region of the circumstellar environment. Except for π1 Gru and perhaps GY Aql, we do not detect interactions between the circumstellar wind and the hypothesized companions that shape the wind at larger scales. This suggests that the orbits of any other companions are tilted out of the plane of the sky.

Original language	English
Article number	A96
Journal	Astronomy & Astrophysics
Volume	671
DOIs	https://doi.org/10.1051/0004-6361/202245398
Publication status	Published - 1 Mar 2023

Keywords

Circumstellar matter
Stars: AGB and post-AGB
Stars: evolution
Stars: imaging
Stars: mass-loss
Supergiants

Access to Document

10.1051/0004-6361/202245398

Cite this

Montargès, M., Cannon, E., De koter, A., Khouri, T., Lagadec, E., Kervella, P., Decin, L., Mcdonald, I., Homan, W., Waters, L. B. F. M., Sahai, R., Gottlieb, C. A., Malfait, J., Maes, S., Pimpanuwat, B., Jeste, M., Danilovich, T., De Ceuster, F., Van de Sande, M., ... Zijlstra, A. (2023). The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis. Astronomy & Astrophysics, 671, Article A96. https://doi.org/10.1051/0004-6361/202245398

@article{38076417f5e94017834834ea97414d34,

title = "The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis",

abstract = "Context. Low- and intermediate-mass asymptotic giant stars and massive red supergiant stars are important contributors to the chemical enrichment of the Universe. They are among the most efficient dust factories of the Galaxy, harboring chemically rich circumstellar environments. Yet, the processes that lead to dust formation or the large-scale shaping of the mass loss still escape attempts at modeling. Aims. Through the ATOMIUM project, we aim to present a consistent view of a sample of 17 nearby cool evolved stars. Our goals are to unveil the dust-nucleation sites and morphologies of the circumstellar envelope of such stars and to probe ambient environments with various conditions. This will further enhance our understanding of the roles of stellar convection and pulsations, and that of companions in shaping the dusty circumstellar medium. Methods. Here we present and analyze VLT/SPHERE-ZIMPOL polarimetric maps obtained in the visible (645- 820 nm) of 14 out of the 17 ATOMIUM sources. They were obtained contemporaneously with the ALMA high spatial resolution data. To help interpret the polarized signal, we produced synthetic maps of light scattering by dust, through 3D radiative transfer simulations with the RADMC3D code. Results. The degree of linear polarization (DoLP) observed by ZIMPOL spreads across several optical filters. We infer that it primarily probes dust located just outside of the point spread function of the central source, and in or near the plane of the sky. The polarized signal is mainly produced by structures with a total optical depth close to unity in the line of sight, and it represents only a fraction of the total circumstellar dust. The maximum DoLP ranges from 0.03- 0.38 depending on the source, fractions that can be reproduced by our 3D pilot models for grains composed of olivine, melilite, corundum, enstatite, or forsterite. The spatial structure of the DoLP shows a diverse set of shapes, including clumps, arcs, and full envelopes. Only for three sources do we note a correlation between the ALMA CO ν = 0, J = 2-1 and SiO ν = 0, J = 5-4 lines, which trace the gas density, and the DoLP, which traces the dust. Conclusions. The clumpiness of the DoLP and the lack of a consistent correlation between the gas and the dust location show that, in the inner environment, dust formation occurs at very specific sites. This has potential consequences for the derived mass-loss rates and dust-to-gas ratio in the inner region of the circumstellar environment. Except for π1 Gru and perhaps GY Aql, we do not detect interactions between the circumstellar wind and the hypothesized companions that shape the wind at larger scales. This suggests that the orbits of any other companions are tilted out of the plane of the sky.",

keywords = "Circumstellar matter, Stars: AGB and post-AGB, Stars: evolution, Stars: imaging, Stars: mass-loss, Supergiants",

author = "M. Montarg{\`e}s and E. Cannon and {De koter}, A. and T. Khouri and E. Lagadec and P. Kervella and L. Decin and I. Mcdonald and W. Homan and Waters, {L. B. F. M.} and R. Sahai and Gottlieb, {C. A.} and J. Malfait and S. Maes and B. Pimpanuwat and M. Jeste and T. Danilovich and {De Ceuster}, F. and {Van de Sande}, M. and D. Gobrecht and Wallstr{\"o}m, {S. H. J.} and Wong, {K. T.} and {El Mellah}, I. and F. Herpin and Anita Richards and A. Baudry and Sandra Etoka and Malcolm Gray and Millar, {T. J.} and Menten, {K. M.} and M{\"u}ller, {H. S. P.} and Plane, {J. M. C.} and J. Yates and Albert Zijlstra",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors.",

year = "2023",

month = mar,

day = "1",

doi = "10.1051/0004-6361/202245398",

language = "English",

volume = "671",

journal = "Astronomy & Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Montargès, M, Cannon, E, De koter, A, Khouri, T, Lagadec, E, Kervella, P, Decin, L, Mcdonald, I, Homan, W, Waters, LBFM, Sahai, R, Gottlieb, CA, Malfait, J, Maes, S, Pimpanuwat, B, Jeste, M, Danilovich, T, De Ceuster, F, Van de Sande, M, Gobrecht, D, Wallström, SHJ, Wong, KT, El Mellah, I, Herpin, F, Richards, A, Baudry, A, Etoka, S, Gray, M, Millar, TJ, Menten, KM, Müller, HSP, Plane, JMC, Yates, J & Zijlstra, A 2023, 'The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis', Astronomy & Astrophysics, vol. 671, A96. https://doi.org/10.1051/0004-6361/202245398

TY - JOUR

T1 - The VLT/SPHERE view of the ATOMIUM cool evolved star sample

T2 - I. Overview: Sample characterization through polarization analysis

AU - Montargès, M.

AU - Cannon, E.

AU - De koter, A.

AU - Khouri, T.

AU - Lagadec, E.

AU - Kervella, P.

AU - Decin, L.

AU - Mcdonald, I.

AU - Homan, W.

AU - Waters, L. B. F. M.

AU - Sahai, R.

AU - Gottlieb, C. A.

AU - Malfait, J.

AU - Maes, S.

AU - Pimpanuwat, B.

AU - Jeste, M.

AU - Danilovich, T.

AU - De Ceuster, F.

AU - Van de Sande, M.

AU - Gobrecht, D.

AU - Wallström, S. H. J.

AU - Wong, K. T.

AU - El Mellah, I.

AU - Herpin, F.

AU - Richards, Anita

AU - Baudry, A.

AU - Etoka, Sandra

AU - Gray, Malcolm

AU - Millar, T. J.

AU - Menten, K. M.

AU - Müller, H. S. P.

AU - Plane, J. M. C.

AU - Yates, J.

AU - Zijlstra, Albert

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Context. Low- and intermediate-mass asymptotic giant stars and massive red supergiant stars are important contributors to the chemical enrichment of the Universe. They are among the most efficient dust factories of the Galaxy, harboring chemically rich circumstellar environments. Yet, the processes that lead to dust formation or the large-scale shaping of the mass loss still escape attempts at modeling. Aims. Through the ATOMIUM project, we aim to present a consistent view of a sample of 17 nearby cool evolved stars. Our goals are to unveil the dust-nucleation sites and morphologies of the circumstellar envelope of such stars and to probe ambient environments with various conditions. This will further enhance our understanding of the roles of stellar convection and pulsations, and that of companions in shaping the dusty circumstellar medium. Methods. Here we present and analyze VLT/SPHERE-ZIMPOL polarimetric maps obtained in the visible (645- 820 nm) of 14 out of the 17 ATOMIUM sources. They were obtained contemporaneously with the ALMA high spatial resolution data. To help interpret the polarized signal, we produced synthetic maps of light scattering by dust, through 3D radiative transfer simulations with the RADMC3D code. Results. The degree of linear polarization (DoLP) observed by ZIMPOL spreads across several optical filters. We infer that it primarily probes dust located just outside of the point spread function of the central source, and in or near the plane of the sky. The polarized signal is mainly produced by structures with a total optical depth close to unity in the line of sight, and it represents only a fraction of the total circumstellar dust. The maximum DoLP ranges from 0.03- 0.38 depending on the source, fractions that can be reproduced by our 3D pilot models for grains composed of olivine, melilite, corundum, enstatite, or forsterite. The spatial structure of the DoLP shows a diverse set of shapes, including clumps, arcs, and full envelopes. Only for three sources do we note a correlation between the ALMA CO ν = 0, J = 2-1 and SiO ν = 0, J = 5-4 lines, which trace the gas density, and the DoLP, which traces the dust. Conclusions. The clumpiness of the DoLP and the lack of a consistent correlation between the gas and the dust location show that, in the inner environment, dust formation occurs at very specific sites. This has potential consequences for the derived mass-loss rates and dust-to-gas ratio in the inner region of the circumstellar environment. Except for π1 Gru and perhaps GY Aql, we do not detect interactions between the circumstellar wind and the hypothesized companions that shape the wind at larger scales. This suggests that the orbits of any other companions are tilted out of the plane of the sky.

AB - Context. Low- and intermediate-mass asymptotic giant stars and massive red supergiant stars are important contributors to the chemical enrichment of the Universe. They are among the most efficient dust factories of the Galaxy, harboring chemically rich circumstellar environments. Yet, the processes that lead to dust formation or the large-scale shaping of the mass loss still escape attempts at modeling. Aims. Through the ATOMIUM project, we aim to present a consistent view of a sample of 17 nearby cool evolved stars. Our goals are to unveil the dust-nucleation sites and morphologies of the circumstellar envelope of such stars and to probe ambient environments with various conditions. This will further enhance our understanding of the roles of stellar convection and pulsations, and that of companions in shaping the dusty circumstellar medium. Methods. Here we present and analyze VLT/SPHERE-ZIMPOL polarimetric maps obtained in the visible (645- 820 nm) of 14 out of the 17 ATOMIUM sources. They were obtained contemporaneously with the ALMA high spatial resolution data. To help interpret the polarized signal, we produced synthetic maps of light scattering by dust, through 3D radiative transfer simulations with the RADMC3D code. Results. The degree of linear polarization (DoLP) observed by ZIMPOL spreads across several optical filters. We infer that it primarily probes dust located just outside of the point spread function of the central source, and in or near the plane of the sky. The polarized signal is mainly produced by structures with a total optical depth close to unity in the line of sight, and it represents only a fraction of the total circumstellar dust. The maximum DoLP ranges from 0.03- 0.38 depending on the source, fractions that can be reproduced by our 3D pilot models for grains composed of olivine, melilite, corundum, enstatite, or forsterite. The spatial structure of the DoLP shows a diverse set of shapes, including clumps, arcs, and full envelopes. Only for three sources do we note a correlation between the ALMA CO ν = 0, J = 2-1 and SiO ν = 0, J = 5-4 lines, which trace the gas density, and the DoLP, which traces the dust. Conclusions. The clumpiness of the DoLP and the lack of a consistent correlation between the gas and the dust location show that, in the inner environment, dust formation occurs at very specific sites. This has potential consequences for the derived mass-loss rates and dust-to-gas ratio in the inner region of the circumstellar environment. Except for π1 Gru and perhaps GY Aql, we do not detect interactions between the circumstellar wind and the hypothesized companions that shape the wind at larger scales. This suggests that the orbits of any other companions are tilted out of the plane of the sky.

KW - Circumstellar matter

KW - Stars: AGB and post-AGB

KW - Stars: evolution

KW - Stars: imaging

KW - Stars: mass-loss

KW - Supergiants

UR - http://www.scopus.com/inward/record.url?scp=85150177607&partnerID=8YFLogxK

U2 - 10.1051/0004-6361/202245398

DO - 10.1051/0004-6361/202245398

M3 - Article

SN - 0004-6361

VL - 671

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

M1 - A96

ER -

The VLT/SPHERE view of the ATOMIUM cool evolved star sample: I. Overview: Sample characterization through polarization analysis

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this