Open AccessStructural design of a 4-meter off-axis space telescope for the Habitable-zone Exoplanet Direct Imaging Mission
Author(s) -
William R. Arnold,
H. Philip Stahl
Publication year - 2017
Publication title -
nasa sti repository (national aeronautics and space administration)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1117/12.2275193
Subject(s) - exoplanet , circumstellar habitable zone , metre , telescope , astrobiology , spitzer space telescope , remote sensing , astronomy , physics , optics , optical telescope , aerospace engineering , geology , planet , engineering
An extensive trade study was conducted to evaluate primary mirror substrate design architectures for the HabEx mission baseline 4-meter off-axis telescope. The study’s purpose is not to produce a final design, but rather to established a design methodology for matching the mirror’s properties (mass and stiffness) with the mission’s optical performance specifications (static dynamic wavefront error, WFE). The study systematically compares the effect of proven design elements (closed-back vs open-back vs partial-back; meniscus vs flat back vs shaped back; etc.), which can be implemented with proven space mirror materials (ULE and Zerodur), on static and dynamic WFE. Additionally, the study compares static and dynamic WFE of each substrate point design integrated onto three and six point mounts.
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