A conceptual design for an exoplanet imager

David C. Hyland; Jon Winkeller; Robert Mosher; Anif Momin; Gerardo Iglesias; Quentin Donnellan; Jerry Stanley; Storm Myers; William G. Whittington; Taro Asazuma; Kami Slagle; Lindsay Newton; Scott Bourgeois; Donny Tejeda; Brian Young; Nick Shaver; Jacob Cooper; Dennis Underwood; James Perkins; Nathan Morea; Ryan Goodnight; Aaron Colunga; Scott Peltier; Zane Singleton; John Brashear; Ronald McPherson; Winston Guillory; Sunil Patel; Rachel Stovall; Ryall Meyer; Patrick Eberle; Cole Morrison; Chun-Yu Mong

doi:10.1117/12.732648

19 September 2007 A conceptual design for an exoplanet imager

David C. Hyland, Jon Winkeller, Robert Mosher, Anif Momin, Gerardo Iglesias, Quentin Donnellan, Jerry Stanley, Storm Myers, William G. Whittington, Taro Asazuma, Kami Slagle, Lindsay Newton, Scott Bourgeois, Donny Tejeda, Brian Young, Nick Shaver, Jacob Cooper, Dennis Underwood, James Perkins, Nathan Morea, Ryan Goodnight, Aaron Colunga, Scott Peltier, Zane Singleton, John Brashear, Ronald McPherson, Winston Guillory, Sunil Patel, Rachel Stovall, Ryall Meyer, Patrick Eberle, Cole Morrison, Chun-Yu Mong

Author Affiliations +

Proceedings Volume 6693, Techniques and Instrumentation for Detection of Exoplanets III; 66930K (2007) https://doi.org/10.1117/12.732648
Event: Optical Engineering + Applications, 2007, San Diego, California, United States

Abstract

This paper reports the results of a design study for an exoplanet imaging system. The design team consisted of the students in the "Electromagnetic Sensing for Space-Bourne Imaging" class taught by the principal author in the Spring, 2005 semester. The design challenge was to devise a space system capable of forming 10X10 pixel images of terrestrial-class planets out to 10 parsecs, observing in the 9.0 to 17.0 microns range. It was presumed that this system would operate after the Terrestrial Planet Finder had been deployed and had identified a number of planetary systems for more detailed imaging. The design team evaluated a large number of tradeoffs, starting with the use of a single monolithic telescope, versus a truss-mounted sparse aperture, versus a formation of free-flying telescopes. Having selected the free-flyer option, the team studied a variety of sensing technologies, including amplitude interferometry, intensity correlation imaging (ICI, based on the Brown-Twiss effect and phase retrieval), heterodyne interferometry and direct electric field reconstruction. Intensity correlation imaging was found to have several advantages. It does not require combiner spacecraft, nor nanometer-level control of the relative positions, nor diffraction-limited optics. Orbit design, telescope design, spacecraft structural design, thermal management and communications architecture trades were also addressed. A six spacecraft design involving non-repeating baselines was selected. By varying the overall scale of the baselines it was found possible to unambiguously characterize an entire multi-planet system, to image the parent star and, for the largest base scales, to determine 10X10 pixel images of individual planets.

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David C. Hyland, Jon Winkeller, Robert Mosher, Anif Momin, Gerardo Iglesias, Quentin Donnellan, Jerry Stanley, Storm Myers, William G. Whittington, Taro Asazuma, Kami Slagle, Lindsay Newton, Scott Bourgeois, Donny Tejeda, Brian Young, Nick Shaver, Jacob Cooper, Dennis Underwood, James Perkins, Nathan Morea, Ryan Goodnight, Aaron Colunga, Scott Peltier, Zane Singleton, John Brashear, Ronald McPherson, Winston Guillory, Sunil Patel, Rachel Stovall, Ryall Meyer, Patrick Eberle, Cole Morrison, and Chun-Yu Mong "A conceptual design for an exoplanet imager", Proc. SPIE 6693, Techniques and Instrumentation for Detection of Exoplanets III, 66930K (19 September 2007); https://doi.org/10.1117/12.732648

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