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Detections of trans-Neptunian ice in protoplanetary disks

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arxiv 1411.7618 v1 pith:QLN4FMAC submitted 2014-11-27 astro-ph.EP astro-ph.SR

Detections of trans-Neptunian ice in protoplanetary disks

classification astro-ph.EP astro-ph.SR
keywords diskwaterlocationconsistentherschelmodelsstructureabundance
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present Herschel Space Observatory PACS spectra of T Tauri stars, in which we detect amorphous and crystalline water ice features. Using irradiated accretion disk models, we determine the disk structure and ice abundance in each of the systems. Combining a model-independent comparison of the ice feature strength and disk size with a detailed analysis of the model ice location, we estimate that the ice emitting region is at disk radii >30AU, consistent with a proto-Kuiper belt. Vertically, the ice emits most below the photodesorption zone, consistent with Herschel observations of cold water vapor. The presence of crystallized water ice at a disk location a) colder than its crystallization temperature and b) where it should have been re-amorphized in ~1 Myr suggests that localized generation is occurring; the most likely cause appears to be micrometeorite impact or planetesimal collisions. Based on simple tests with UV models and different ice distributions, we suggest that the SED shape from 20 to 50 micron may probe the location of the water ice snow line in the disk upper layers. This project represents one of the first extra-solar probes of the spatial structure of the cometary ice reservoir thought to deliver water to terrestrial planets.

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