Dual-wavelength ALMA Observations of Dust Rings in Protoplanetary Disks

We present new Atacama Large Millimeter/submillimeter Array observations for three protoplanetary disks in Taurus at 2.9 mm and comparisons with previous 1.3 mm data both at an angular resolution of ∼0 1 (15 au for the distance of Taurus). In the single-ring disk DS Tau, double-ring disk GO Tau, and...

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Veröffentlicht in:	The Astrophysical journal 2020-07, Vol.898 (1), p.36
Hauptverfasser:	Long, Feng, Pinilla, Paola, Herczeg, Gregory J., Andrews, Sean M., Harsono, Daniel, Johnstone, Doug, Ragusa, Enrico, Pascucci, Ilaria, Wilner, David J., Hendler, Nathan, Jennings, Jeff, Liu, Yao, Lodato, Giuseppe, Menard, Francois, van de Plas, Gerrit, Dipierro, Giovanni
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Sprache:	eng
Schlagworte:	Angular resolution Astrophysics Circumstellar dust Dust Dust emission Earth and Planetary Astrophysics Evolution Morphology Optical properties Physics Planet formation Pre-main sequence stars Protoplanetary disks Radio telescopes Trapping Wavelengths
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creator	Long, Feng Pinilla, Paola Herczeg, Gregory J. Andrews, Sean M. Harsono, Daniel Johnstone, Doug Ragusa, Enrico Pascucci, Ilaria Wilner, David J. Hendler, Nathan Jennings, Jeff Liu, Yao Lodato, Giuseppe Menard, Francois van de Plas, Gerrit Dipierro, Giovanni
description	We present new Atacama Large Millimeter/submillimeter Array observations for three protoplanetary disks in Taurus at 2.9 mm and comparisons with previous 1.3 mm data both at an angular resolution of ∼0 1 (15 au for the distance of Taurus). In the single-ring disk DS Tau, double-ring disk GO Tau, and multiring disk DL Tau, the same rings are detected at both wavelengths, with radial locations spanning from 50 to 120 au. To quantify the dust emission morphology, the observed visibilities are modeled with a parametric prescription for the radial intensity profile. The disk outer radii, taken as 95% of the total flux encircled in the model intensity profiles, are consistent at both wavelengths for the three disks. Dust evolution models show that dust trapping in local pressure maxima in the outer disk could explain the observed patterns. Dust rings are mostly unresolved. The marginally resolved ring in DS Tau shows a tentatively narrower ring at the longer wavelength, an observational feature expected from efficient dust trapping. The spectral index ( mm) increases outward and exhibits local minima that correspond to the peaks of dust rings, indicative of the changes in grain properties across the disks. The low optical depths (τ ∼ 0.1-0.2 at 2.9 mm and 0.2-0.4 at 1.3 mm) in the dust rings suggest that grains in the rings may have grown to millimeter sizes. The ubiquitous dust rings in protoplanetary disks modify the overall dynamics and evolution of dust grains, likely paving the way toward the new generation of planet formation.
doi_str_mv	10.3847/1538-4357/ab9a54
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In the single-ring disk DS Tau, double-ring disk GO Tau, and multiring disk DL Tau, the same rings are detected at both wavelengths, with radial locations spanning from 50 to 120 au. To quantify the dust emission morphology, the observed visibilities are modeled with a parametric prescription for the radial intensity profile. The disk outer radii, taken as 95% of the total flux encircled in the model intensity profiles, are consistent at both wavelengths for the three disks. Dust evolution models show that dust trapping in local pressure maxima in the outer disk could explain the observed patterns. Dust rings are mostly unresolved. The marginally resolved ring in DS Tau shows a tentatively narrower ring at the longer wavelength, an observational feature expected from efficient dust trapping. The spectral index ( mm) increases outward and exhibits local minima that correspond to the peaks of dust rings, indicative of the changes in grain properties across the disks. The low optical depths (τ ∼ 0.1-0.2 at 2.9 mm and 0.2-0.4 at 1.3 mm) in the dust rings suggest that grains in the rings may have grown to millimeter sizes. The ubiquitous dust rings in protoplanetary disks modify the overall dynamics and evolution of dust grains, likely paving the way toward the new generation of planet formation.</description><identifier>ISSN: 0004-637X</identifier><identifier>EISSN: 1538-4357</identifier><identifier>DOI: 10.3847/1538-4357/ab9a54</identifier><language>eng</language><publisher>Philadelphia: The American Astronomical Society</publisher><subject>Angular resolution ; Astrophysics ; Circumstellar dust ; Dust ; Dust emission ; Earth and Planetary Astrophysics ; Evolution ; Morphology ; Optical properties ; Physics ; Planet formation ; Pre-main sequence stars ; Protoplanetary disks ; Radio telescopes ; Trapping ; Wavelengths</subject><ispartof>The Astrophysical journal, 2020-07, Vol.898 (1), p.36</ispartof><rights>2020. The American Astronomical Society. 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J</addtitle><description>We present new Atacama Large Millimeter/submillimeter Array observations for three protoplanetary disks in Taurus at 2.9 mm and comparisons with previous 1.3 mm data both at an angular resolution of ∼0 1 (15 au for the distance of Taurus). In the single-ring disk DS Tau, double-ring disk GO Tau, and multiring disk DL Tau, the same rings are detected at both wavelengths, with radial locations spanning from 50 to 120 au. To quantify the dust emission morphology, the observed visibilities are modeled with a parametric prescription for the radial intensity profile. The disk outer radii, taken as 95% of the total flux encircled in the model intensity profiles, are consistent at both wavelengths for the three disks. Dust evolution models show that dust trapping in local pressure maxima in the outer disk could explain the observed patterns. Dust rings are mostly unresolved. The marginally resolved ring in DS Tau shows a tentatively narrower ring at the longer wavelength, an observational feature expected from efficient dust trapping. The spectral index ( mm) increases outward and exhibits local minima that correspond to the peaks of dust rings, indicative of the changes in grain properties across the disks. The low optical depths (τ ∼ 0.1-0.2 at 2.9 mm and 0.2-0.4 at 1.3 mm) in the dust rings suggest that grains in the rings may have grown to millimeter sizes. 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J</addtitle><date>2020-07-01</date><risdate>2020</risdate><volume>898</volume><issue>1</issue><spage>36</spage><pages>36-</pages><issn>0004-637X</issn><eissn>1538-4357</eissn><abstract>We present new Atacama Large Millimeter/submillimeter Array observations for three protoplanetary disks in Taurus at 2.9 mm and comparisons with previous 1.3 mm data both at an angular resolution of ∼0 1 (15 au for the distance of Taurus). In the single-ring disk DS Tau, double-ring disk GO Tau, and multiring disk DL Tau, the same rings are detected at both wavelengths, with radial locations spanning from 50 to 120 au. To quantify the dust emission morphology, the observed visibilities are modeled with a parametric prescription for the radial intensity profile. The disk outer radii, taken as 95% of the total flux encircled in the model intensity profiles, are consistent at both wavelengths for the three disks. Dust evolution models show that dust trapping in local pressure maxima in the outer disk could explain the observed patterns. Dust rings are mostly unresolved. The marginally resolved ring in DS Tau shows a tentatively narrower ring at the longer wavelength, an observational feature expected from efficient dust trapping. The spectral index ( mm) increases outward and exhibits local minima that correspond to the peaks of dust rings, indicative of the changes in grain properties across the disks. The low optical depths (τ ∼ 0.1-0.2 at 2.9 mm and 0.2-0.4 at 1.3 mm) in the dust rings suggest that grains in the rings may have grown to millimeter sizes. 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subjects	Angular resolution Astrophysics Circumstellar dust Dust Dust emission Earth and Planetary Astrophysics Evolution Morphology Optical properties Physics Planet formation Pre-main sequence stars Protoplanetary disks Radio telescopes Trapping Wavelengths
title	Dual-wavelength ALMA Observations of Dust Rings in Protoplanetary Disks
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