Journal
ASTROPHYSICAL JOURNAL
Volume 766, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/766/2/82
Keywords
astrochemistry; planetary systems; protoplanetary disks; stars: individual (TW Hya)
Categories
Funding
- NASA
- NSF
- NOAO Leo Goldberg
- Division Of Astronomical Sciences
- Direct For Mathematical & Physical Scien [1109857] Funding Source: National Science Foundation
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We present an observational reconstruction of the radial water vapor content near the surface of the TW Hya transitional protoplanetary disk, and report the first localization of the snow line during this phase of disk evolution. The observations are comprised of Spitzer-IRS, Herschel-PACS, and Herschel-HIFI archival spectra. The abundance structure is retrieved by fitting a two-dimensional disk model to the available star + disk photometry and all observed H2O lines, using a simple step-function parameterization of the water vapor content near the disk surface. We find that water vapor is abundant (similar to 10(-4) per H-2) in a narrow ring, located at the disk transition radius some 4 AU from the central star, but drops rapidly by several orders of magnitude beyond 4.2 AU over a scale length of no more than 0.5 AU. The inner disk (0.5-4 AU) is also dry, with an upper limit on the vertically averaged water abundance of 10(-6) per H-2. The water vapor peak occurs at a radius significantly more distant than that expected for a passive continuous disk around a 0.6 M-circle dot star, representing a volatile distribution in the TW Hya disk that bears strong similarities to that of the solar system. This is observational evidence for a snow line that moves outward with time in passive disks, with a dry inner disk that results either from gas giant formation or gas dissipation and a significant ice reservoir at large radii. The amount of water present near the snow line is sufficient to potentially catalyze the (further) formation of planetesimals and planets at distances beyond a few AU.
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