Imaging protoplanets: observing transition disks with non-redundant masking

Sallum, Steph; Eisner, Josh; Close, Laird M.; Hinz, Philip M.; Follette, Katherine B.; Kratter, Kaitlin M.; Skemer, Andrew J.; Bailey, Vanessa P.; Briguglio, Runa; Defrere, Denis; Macintosh, Bruce A.; Males, Jared R.; Morzinski, Katie M.; Puglisi, Alfio T.; Rodigas, Timothy J.; Spalding, Eckhart; Tuthill, Peter G.; Vaz, Amali; Weinberger, Alycia; Xomperio, Marco

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Affiliation

Univ Arizona, Dept Astron

Issue Date

2016-08-04

Citation

Steph Sallum ; Josh Eisner ; Laird M. Close ; Philip M. Hinz ; Katherine B. Follette ; Kaitlin Kratter ; Andrew J. Skemer ; Vanessa P. Bailey ; Runa Briguglio ; Denis Defrere ; Bruce A. Macintosh ; Jared R. Males ; Katie M. Morzinski ; Alfio T. Puglisi ; Timothy J. Rodigas ; Eckhart Spalding ; Peter G. Tuthill ; Amali Vaz ; Alycia Weinberger and Marco Xomperio " Imaging protoplanets: observing transition disks with non-redundant masking ", Proc. SPIE 9907, Optical and Infrared Interferometry and Imaging V, 99070D (August 4, 2016); doi:10.1117/12.2231764; http://dx.doi.org/10.1117/12.2231764

Journal

OPTICAL AND INFRARED INTERFEROMETRY AND IMAGING V

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This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.

Abstract

Transition disks, protoplanetary disks with inner clearings, are promising objects in which to directly image forming planets. The high contrast imaging technique of non-redundant masking is well posed to detect planetary mass companions at several to tens of AU in nearby transition disks. We present non-redundant masking observations of the T Cha and LkCa 15 transition disks, both of which host posited sub-stellar mass companions. However, due to a loss of information intrinsic to the technique, observations of extended sources (e.g. scattered light from disks) can be misinterpreted as moving companions. We discuss tests to distinguish between these two scenarios, with applications to the T Cha and LkCa 15 observations. We argue that a static, forward-scattering disk can explain the T Cha data, while LkCa 15 is best explained by multiple orbiting companions.

DOI

10.1117/12.2231764

Version

Final published version

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http://proceedings.spiedigitallibrary.org/proceeding.aspx?doi=10.1117/12.2231764

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UA Faculty Publications