Cryogenic Focus Measurement System for a Wide-Field Infrared Space Telescope

We describe a technique for measuring focus errors in a cryogenic, wide-field, near-infrared space telescope. The measurements are made with a collimator looking through a large vacuum window, with a reflective cold filter to reduce background thermal infrared loading on the detectors and optics. Th...

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Veröffentlicht in:	arXiv.org 2024-10
Hauptverfasser:	Condon, Samuel S, Padin, Stephen, Bock, James, Hui, Howard, Korngut, Phillip, Nguyen, Chi, Jordan Otsby
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Sprache:	eng
Schlagworte:	Diameters Infrared telescopes Physics - Instrumentation and Methods for Astrophysics Physics - Optics Position measurement Space telescopes
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creator	Condon, Samuel S Padin, Stephen Bock, James Hui, Howard Korngut, Phillip Nguyen, Chi Jordan Otsby
description	We describe a technique for measuring focus errors in a cryogenic, wide-field, near-infrared space telescope. The measurements are made with a collimator looking through a large vacuum window, with a reflective cold filter to reduce background thermal infrared loading on the detectors and optics. The vacuum window and cold filter introduce wavefront error which we characterize using an autocollimating microscope. For the $200\textrm{ mm}$ diameter aperture $f/3$ space telescope, SPHEREx, we achieve a focus position measurement with a $\sim15 \textrm{ }\mu \textrm{m systematic}$ and a $\sim 5\textrm{ }\mu \textrm{m statistical}$ error.
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subjects	Diameters Infrared telescopes Physics - Instrumentation and Methods for Astrophysics Physics - Optics Position measurement Space telescopes
title	Cryogenic Focus Measurement System for a Wide-Field Infrared Space Telescope
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