Journal
ASTROPHYSICAL JOURNAL
Volume 663, Issue 1, Pages 383-393Publisher
IOP PUBLISHING LTD
DOI: 10.1086/518535
Keywords
circumstellar matter; infrared : stars; line : identification; planetary systems : protoplanetary disks; stars : individual (HD 143006; PDS 66; [PZ99] J161411.0-230536; RX J1111.7-7620; RX J1842.9-3532; RX J1852.3-3700)
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We report the detection of [Ne II] emission at 12.81 mu m in four out of the six optically thick dust disks observed as part of the FEPS Spitzer Legacy program. In addition, we detect a H I (7-6) emission line at 12.37 mu m from the source RX J1852.3 - 3700. Detections of [Ne II] lines are favored by low mid-infrared excess emission. Both stellar X-rays and extreme ultraviolet (EUV) photons can sufficiently ionize the disk surface to reproduce the observed line fluxes, suggesting that emission from Ne+ originates in the hot disk atmosphere. On the other hand, the H I (7-6) line is not associated with the gas in the disk surface, and magnetospheric accretion flows can account for at most similar to 30% of the observed flux. We conclude that accretion shock regions and/or the stellar corona could contribute to most of the H I (7-6) emission. Finally, we discuss the observations necessary to identify whether stellar X-rays or EUV photons are the dominant ionization mechanismfor Ne atoms. Because the observed [Ne II] emission probes very small amounts of gas in the disk surface (similar to 10(-6) M-J) we suggest using this gas line to determine the presence or absence of gas in more evolved circumstellar disks.
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