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Title:
Water vapour and hydrogen in the terrestrial-planet-forming region of a protoplanetary disk
Authors:
Eisner, J. A.
Affiliation:
AA(Department of Astronomy, 601 Campbell Hall, University of California, Berkeley, California 94720, USA)
Publication:
Nature, Volume 447, Issue 7144, pp. 562-564 (2007). (Nature Homepage)
Publication Date:
05/2007
Origin:
NATURE
DOI:
10.1038/nature05867
Bibliographic Code:
2007Natur.447..562E

Abstract

Planetary systems (ours included) formed in disks of dust and gas around young stars. Disks are an integral part of the star and planet formation process, and knowledge of the distribution and temperature of inner-disk material is crucial for understanding terrestrial planet formation, giant planet migration, and accretion onto the central star. Although the inner regions of protoplanetary disks in nearby star-forming regions subtend only a few nano-radians, near-infrared interferometry has recently enabled the spatial resolution of these terrestrial zones. Most observations have probed only dust, which typically dominates the near-infrared emission. Here I report spectrally dispersed near-infrared interferometric observations that probe the gas (which dominates the mass and dynamics of the inner disk), in addition to the dust, within one astronomical unit (1AU, the Sun-Earth distance) of the young star MWC480. I resolve gas, including water vapour and atomic hydrogen, interior to the edge of the dust disk; this contrasts with results of previous spectrally dispersed interferometry observations. Interactions of this accreting gas with migrating planets may lead to short-period exoplanets like those detected around main-sequence stars. The observed water vapour is probably produced by the sublimation of migrating icy bodies, and provides a potential reservoir of water for terrestrial planets.
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