Design of the vacuum high contrast imaging testbed for CDEEP, the Coronagraphic Debris and Exoplanet Exploring Pioneer

Maier, Erin R.; Douglas, Ewan S.; Kim, Dae Wook; Su, Kate; Ashcraft, Jaren N.; Breckinridge, James B.; Choi, Heejoo; Choquet, Elodie; Connors, Thomas E.; Durney, Olivier; Gonzales, Kerry L.; Guthery, Charlotte E.; Haughwout, Christian A.; Heath, James C.; Hyatt, Justin; Lumbres, Jennifer; Males, Jared R.; Matthews, Elisabeth C.; Milani, Kian; Montoya, Oscar M.; N'Diaye, Mamadou; Noenickx, Jamison; Pogorelyuk, Leonid; Ruane, Garreth J.; Schneider, Glenn; Smith, George A.; Stark, Christopher C.

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Affiliation

Department of Astronomy and Steward Observatory, University of Arizona
Large Binocular Telescope Observatory, University Of Arizona
James C. Wyant College of Optical Sciences, University of Arizona

Issue Date

2020-12-13

Citation

Maier, E. R., Douglas, E. S., Kim, D. W., Su, K., Ashcraft, J. N., Breckinridge, J. B., ... & Stark, C. C. (2020, December). Design of the vacuum high contrast imaging testbed for CDEEP, the Coronagraphic Debris and Exoplanet Exploring Pioneer. In Space Telescopes and Instrumentation 2020: Optical, Infrared, and Millimeter Wave (Vol. 11443, p. 114431Y). International Society for Optics and Photonics.

Journal

Proceedings of SPIE - The International Society for Optical Engineering

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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

The Coronagraphic Debris Exoplanet Exploring Payload (CDEEP) is a Small-Sat mission concept for high contrast imaging of circumstellar disks. CDEEP is designed to observe disks in scattered light at visible wavelengths at a raw contrast level of 10-7 per resolution element (10-8 with post processing). This exceptional sensitivity will allow the imaging of transport dominated debris disks, quantifying the albedo, composition, and morphology of these low-surface brightness disks. CDEEP combines an off-axis telescope, microelectromechanical systems (MEMS) deformable mirror, and a vector vortex coronagraph (VVC). This system will require rigorous testing and characterization in a space environment. We report on the CDEEP mission concept, and the status of the vacuum-compatible CDEEP prototype testbed currently under development at the University of Arizona, including design development and the results of simulations to estimate performance.

ISSN

0277-786X

DOI

10.1117/12.2560878

Version

Final published version

Collections

UA Faculty Publications