The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354

Katherine B. Follette; Laird M. Close; Jared R. Males; Derek Kopon; Ya Lin Wu; Katie M. Morzinski; Philip Hinz.; Timothy J. Rodigas; Alfio Puglisi; Simone Esposito; Armando Riccardi; Enrico Pinna; Marco Xompero; Runa Briguglio

doi:10.1088/2041-8205/775/1/L13

The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354

Katherine B. Follette, Laird M. Close, Jared R. Males, Derek Kopon, Ya Lin Wu, Katie M. Morzinski, Philip Hinz., Timothy J. Rodigas, Alfio Puglisi, Simone Esposito, Armando Riccardi, Enrico Pinna, Marco Xompero, Runa Briguglio

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Abstract

We present high-resolution adaptive optics (AO) corrected images of the silhouette disk Orion 218-354 taken with Magellan AO (MagAO) and its visible light camera, VisAO, in simultaneous differential imaging mode at Hα. This is the first image of a circumstellar disk seen in silhouette with AO and is among the first visible light AO results in the literature. We derive the disk extent, geometry, intensity, and extinction profiles and find, in contrast with previous work, that the disk is likely optically thin at Hα. Our data provide an estimate of the column density in primitive, ISM-like grains as a function of radius in the disk. We estimate that only ∼10% of the total submillimeter derived disk mass lies in primitive, unprocessed grains. We use our data, Monte Carlo radiative transfer modeling, and previous results from the literature to make the first self-consistent multiwavelength model of Orion 218-354. We find that we are able to reproduce the 1-1000 μm spectral energy distribution with a ∼2-540 AU disk of the size, geometry, small versus large grain proportion, and radial mass profile indicated by our data. This inner radius is a factor of ∼15 larger than the sublimation radius of the disk, suggesting that it is likely cleared in the very interior.

Original language	English
Article number	L13
Journal	Astrophysical Journal Letters
Volume	775
Issue number	1
DOIs	https://doi.org/10.1088/2041-8205/775/1/L13
Publication status	Published - 2013 Sept 20
Externally published	Yes

Keywords

instrumentation: adaptive optics
methods: observational
protoplanetary disks

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1088/2041-8205/775/1/L13

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Follette, K. B., Close, L. M., Males, J. R., Kopon, D., Wu, Y. L., Morzinski, K. M., Hinz., P., Rodigas, T. J., Puglisi, A., Esposito, S., Riccardi, A., Pinna, E., Xompero, M., & Briguglio, R. (2013). The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354. Astrophysical Journal Letters, 775(1), Article L13. https://doi.org/10.1088/2041-8205/775/1/L13

Follette, KB, Close, LM, Males, JR, Kopon, D, Wu, YL, Morzinski, KM, Hinz., P, Rodigas, TJ, Puglisi, A, Esposito, S, Riccardi, A, Pinna, E, Xompero, M & Briguglio, R 2013, 'The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354', Astrophysical Journal Letters, vol. 775, no. 1, L13. https://doi.org/10.1088/2041-8205/775/1/L13

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title = "The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354",

abstract = "We present high-resolution adaptive optics (AO) corrected images of the silhouette disk Orion 218-354 taken with Magellan AO (MagAO) and its visible light camera, VisAO, in simultaneous differential imaging mode at Hα. This is the first image of a circumstellar disk seen in silhouette with AO and is among the first visible light AO results in the literature. We derive the disk extent, geometry, intensity, and extinction profiles and find, in contrast with previous work, that the disk is likely optically thin at Hα. Our data provide an estimate of the column density in primitive, ISM-like grains as a function of radius in the disk. We estimate that only ∼10% of the total submillimeter derived disk mass lies in primitive, unprocessed grains. We use our data, Monte Carlo radiative transfer modeling, and previous results from the literature to make the first self-consistent multiwavelength model of Orion 218-354. We find that we are able to reproduce the 1-1000 μm spectral energy distribution with a ∼2-540 AU disk of the size, geometry, small versus large grain proportion, and radial mass profile indicated by our data. This inner radius is a factor of ∼15 larger than the sublimation radius of the disk, suggesting that it is likely cleared in the very interior.",

keywords = "instrumentation: adaptive optics, methods: observational, protoplanetary disks",

author = "Follette, {Katherine B.} and Close, {Laird M.} and Males, {Jared R.} and Derek Kopon and Wu, {Ya Lin} and Morzinski, {Katie M.} and Philip Hinz. and Rodigas, {Timothy J.} and Alfio Puglisi and Simone Esposito and Armando Riccardi and Enrico Pinna and Marco Xompero and Runa Briguglio",

year = "2013",

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doi = "10.1088/2041-8205/775/1/L13",

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T1 - The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics

T2 - MagAO imaging of orion 218-354

AU - Follette, Katherine B.

AU - Close, Laird M.

AU - Males, Jared R.

AU - Kopon, Derek

AU - Wu, Ya Lin

AU - Morzinski, Katie M.

AU - Hinz., Philip

AU - Rodigas, Timothy J.

AU - Puglisi, Alfio

AU - Esposito, Simone

AU - Riccardi, Armando

AU - Pinna, Enrico

AU - Xompero, Marco

AU - Briguglio, Runa

PY - 2013/9/20

Y1 - 2013/9/20

N2 - We present high-resolution adaptive optics (AO) corrected images of the silhouette disk Orion 218-354 taken with Magellan AO (MagAO) and its visible light camera, VisAO, in simultaneous differential imaging mode at Hα. This is the first image of a circumstellar disk seen in silhouette with AO and is among the first visible light AO results in the literature. We derive the disk extent, geometry, intensity, and extinction profiles and find, in contrast with previous work, that the disk is likely optically thin at Hα. Our data provide an estimate of the column density in primitive, ISM-like grains as a function of radius in the disk. We estimate that only ∼10% of the total submillimeter derived disk mass lies in primitive, unprocessed grains. We use our data, Monte Carlo radiative transfer modeling, and previous results from the literature to make the first self-consistent multiwavelength model of Orion 218-354. We find that we are able to reproduce the 1-1000 μm spectral energy distribution with a ∼2-540 AU disk of the size, geometry, small versus large grain proportion, and radial mass profile indicated by our data. This inner radius is a factor of ∼15 larger than the sublimation radius of the disk, suggesting that it is likely cleared in the very interior.

AB - We present high-resolution adaptive optics (AO) corrected images of the silhouette disk Orion 218-354 taken with Magellan AO (MagAO) and its visible light camera, VisAO, in simultaneous differential imaging mode at Hα. This is the first image of a circumstellar disk seen in silhouette with AO and is among the first visible light AO results in the literature. We derive the disk extent, geometry, intensity, and extinction profiles and find, in contrast with previous work, that the disk is likely optically thin at Hα. Our data provide an estimate of the column density in primitive, ISM-like grains as a function of radius in the disk. We estimate that only ∼10% of the total submillimeter derived disk mass lies in primitive, unprocessed grains. We use our data, Monte Carlo radiative transfer modeling, and previous results from the literature to make the first self-consistent multiwavelength model of Orion 218-354. We find that we are able to reproduce the 1-1000 μm spectral energy distribution with a ∼2-540 AU disk of the size, geometry, small versus large grain proportion, and radial mass profile indicated by our data. This inner radius is a factor of ∼15 larger than the sublimation radius of the disk, suggesting that it is likely cleared in the very interior.

KW - instrumentation: adaptive optics

KW - methods: observational

KW - protoplanetary disks

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VL - 775

JO - Astrophysical Journal Letters

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ER -

The first circumstellar disk imaged in silhouette at visible wavelengths with adaptive optics: MagAO imaging of orion 218-354

Abstract

Keywords

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