Optical design for CETUS: a wide-field 1.5-m aperture UV payload being studied for a NASA probe class mission study

Woodruff, Robert A.; Danchi, W. C.; Heap, Sara R.; Hull, Tony; Kendrick, Stephen E.; Purves, Lloyd; Rhee, Michael S.; Mentzell, Eric; Fleming, Brian; Valente, Marty; Burge, James H.; Lewis, Ben; Dodson, Kelly; Mehle, Greg; Tomic, Matt

doi:10.1117/1.jatis.5.2.024006

Cited by 4 publications

References 8 publications

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CHESS: An innovative concept for high-resolution, far-UV spectroscopy

et al. 2020

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The space ultraviolet (UV) is a critical astronomical observing window, where a multitude of atomic, ionic, and molecular signatures provide crucial insight into planetary, interstellar, stellar, intergalactic, and extragalactic objects. The next generation of large space telescopes require highly sensitive, moderate-to-high resolution UV spectrograph. However, sensitive observations in the UV are difficult, as UV optical performance and imaging efficiencies have lagged behind counterparts in the visible and infrared regimes. This has historically resulted in simple, low-bounce instruments to increase sensitivity. In this study, we present the design, fabrication, and calibration of a simple, high resolution, high throughput FUV spectrograph -the Colorado High-resolution Echelle Stellar Spectrograph (CHESS). CHESS is a sounding rocket payload to demonstrate the instrument design for the next-generation UV space telescopes. We present tests and results on the performance of several state-ofthe-art diffraction grating and detector technologies for FUV astronomical applications that were flown aboard the first two iterations of CHESS. The

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CHESS: An innovative concept for high-resolution, far-UV spectroscopy

et al. 2020

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Science capabilities enabled by the CETUS NUV multi-object spectrometer and NUV/FUV camera and the driving technologies

Kendrick¹,

Woodruff

Hull

et al. 2019

UV/Optical/IR Space Telescopes and Instruments: Innovative Technologies and Concepts IX

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Optical Design, Tolerance Analysis, and Baffling of Very High-Resolution Satellite Telescopes

Metwally

Bazan

Eltohamy

et al. 2018

The International Conference on Electrical Engineering

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The telescope design of a very high-resolution earth observation satellite is a challenging task due to several constraints, including the size, mass, performance, tolerance and environmental aspects. However, the demand for very high-resolution satellite imagery has increased day by day due to the numerous commercial and military applications. In this paper, an optical configuration for a ground sampling distance (GSD) of 25 cm is investigated according to a definite mission statement. The configuration represents on-axis Korsch scheme with the advantage of small conic mirror constants without higher-order parameters. In addition, a tolerance analysis utilizing a Monte Carlo algorithm is performed. The suggested baffling arrangement based on a series of point sources with different off-axis angles is derived. The size of the telescope is applicable to be launched into space by the current launch vehicles.

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Optical design for CETUS: a wide-field 1.5-m aperture UV payload being studied for a NASA probe class mission study

Cited by 4 publications

References 8 publications

CHESS: An innovative concept for high-resolution, far-UV spectroscopy

CHESS: An innovative concept for high-resolution, far-UV spectroscopy

Science capabilities enabled by the CETUS NUV multi-object spectrometer and NUV/FUV camera and the driving technologies

Optical Design, Tolerance Analysis, and Baffling of Very High-Resolution Satellite Telescopes

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