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Key Technologies for the Wide Field Infrared Survey Telescope Coronagraph Instrument

Authors :
Bailey, Vanessa P.
Armus, Lee
Balasubramanian, Bala
Berriman, Bruce
Cady, Eric
Calchi Novati, Sebastiano
Ciardi, David
Crill, Brendan
Demers, Richard
Effinger, Robert
Frerking, Margaret
Gelino, Dawn
Harding, Leon
Helou, George
Kern, Brian
Krist, John
Laine, Seppo
Lindensmith, Chris
Lowrance, Patrick
Prada, Camilo Mejia
Mennesson, Bertrand
Meshkat, Tiffany
Moody, Dwight
Morrissey, Patrick
Moustakas, Leonidas
Noecker, Charley
Paladini, Roberta
Poberezhskiy, Ilya
Ramírez, Solange
Rhodes, Jason
Riggs, A. J. E.
Seo, Byoung-Joon
Shaklan, Stuart
Shi, Fang
Stapelfeldt, Karl
Tang, Hong
Trauger, John
Ygouf, Marie
Zhao, Feng
Zhou, Hanying
Bailey, Vanessa P.
Armus, Lee
Balasubramanian, Bala
Berriman, Bruce
Cady, Eric
Calchi Novati, Sebastiano
Ciardi, David
Crill, Brendan
Demers, Richard
Effinger, Robert
Frerking, Margaret
Gelino, Dawn
Harding, Leon
Helou, George
Kern, Brian
Krist, John
Laine, Seppo
Lindensmith, Chris
Lowrance, Patrick
Prada, Camilo Mejia
Mennesson, Bertrand
Meshkat, Tiffany
Moody, Dwight
Morrissey, Patrick
Moustakas, Leonidas
Noecker, Charley
Paladini, Roberta
Poberezhskiy, Ilya
Ramírez, Solange
Rhodes, Jason
Riggs, A. J. E.
Seo, Byoung-Joon
Shaklan, Stuart
Shi, Fang
Stapelfeldt, Karl
Tang, Hong
Trauger, John
Ygouf, Marie
Zhao, Feng
Zhou, Hanying
Publication Year :
2019

Abstract

The Wide Field Infrared Survey Telescope (WFIRST) Coronagraph Instrument (CGI) is a high-contrast imager and integral field spectrograph that will enable the study of exoplanets and circumstellar disks at visible wavelengths. Ground-based high-contrast instrumentation has fundamentally limited performance at small working angles, even under optimistic assumptions for 30m-class telescopes. There is a strong scientific driver for better performance, particularly at visible wavelengths. Future flagship mission concepts aim to image Earth analogues with visible light flux ratios of more than 10^10. CGI is a critical intermediate step toward that goal, with a predicted 10^8-9 flux ratio capability in the visible. CGI achieves this through improvements over current ground and space systems in several areas: (i) Hardware: space-qualified (TRL9) deformable mirrors, detectors, and coronagraphs, (ii) Algorithms: wavefront sensing and control; post-processing of integral field spectrograph, polarimetric, and extended object data, and (iii) Validation of telescope and instrument models at high accuracy and precision. This white paper, submitted to the 2018 NAS Exoplanet Science Strategy call, describes the status of key CGI technologies and presents ways in which performance is likely to evolve as the CGI design matures.

Details

Database :
OAIster
Notes :
application/pdf, Key Technologies for the Wide Field Infrared Survey Telescope Coronagraph Instrument, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1111396435
Document Type :
Electronic Resource