Prediction of the planet yield of the MaxProtoPlanetS high-contrast survey for H-alpha protoplanets with MagAO-X based on first light contrasts
Author
Close, Laird M.Males, Jared R.
Long, Joseph D.
Van Gorkom, Kyle
Hedglen, Alexander D.
Kautz, Maggie Y.
Lumbres, Jennifer
Haffert, Sebastiaan Y.
Follette, Katherine
Wagner, Kevin
Miller, Kelsey L.
Apai, Daniel
Wu, Ya-Lin
Guyon, Olivier
Schatz, Lauren
Rodack, Alex
Doelman, David
Snik, Frans
Knight, Justin M.
Morzinski, Katie
Gasho, Victor
Keller, Christoph
Pearce, Logan
Weinberger, Alycia
Pérez, Laura
Doyon, René
Issue Date
2020-12-13Keywords
Adaptive opticsCoronagraphs
Exo-planets
H-alpha
High contrast imaging
Protoplanets
Wavefront control
Wavefront sensing
Metadata
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SPIECitation
Close, L. M., Males, J., Long, J. D., Van Gorkom, K., Hedglen, A. D., Kautz, M., ... & Doyon, R. (2020, December). Prediction of the planet yield of the MaxProtoPlanetS high-contrast survey for H-alpha protoplanets with MagAO-X based on first light contrasts. In Adaptive Optics Systems VII (Vol. 11448, p. 114480U). International Society for Optics and Photonics.Rights
© 2020 SPIE.Collection Information
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
Our past GAPplanetS survey over the last 5 years with the MagAO visible AO system discovered the first examples of accreting protoplanets (by direct observation of H-alpha emission). Examples include LkCa15 b (Sallum et al. 2015) and PDS70 b (Wagner et al. 2018). In this paper we review the science performance of the newly (Dec. 2019) commissioned MagAO-X extreme AO system. In particular, we use the vAPP coronagraphic contrasts measured during MagAO-X first light. We use the Massive Accreting Gap (MAG) protoplanet model of Close 2020 to predict the H-alpha contrasts of 19 of the best transitional disk systems (ages 1-5 Myr) for the direct detection of H-alpha from accretion of hydrogen onto these protoplanets. The MAG protoplanet model applied to the observed first light MagAO-X contrasts predict a maximum yield of 46±7 planets from 19 stars (42 of these planets would be new discoveries). This suggests that there is a large, yet, unexplored reservoir of protoplanets that can be discovered with an extreme AO coronagraphic survey of 19 of the best transitional disk systems. Based on our first light contrasts we predict a healthy yield of protoplanets from our MaxProtoPlanetS survey of 19 transitional disks with MagAO-X. © 2020 SPIE.ISSN
0277-786XVersion
Final published versionae974a485f413a2113503eed53cd6c53
10.1117/12.2561677