Session
Poster Session 1
Location
Salt Palace Convention Center, Salt Lake City, UT
Abstract
The SUPERSHARP mission concept for large, unfolding, lightweight, sparse-aperture space telescopes is inspired by the ongoing search for life in the universe [1]. The SuperSharp company is developing small-satellite versions of this concept for use in thermal infrared for Earth observation with applications in climate change research [2]. The motivation of my research is to help advance the alignment techniques and procedures of this technology for future applications in space observation at shorter wavelengths; this will be accomplished through the development and alignment of a laboratory prototype of a sparse-aperture, parabolic primary mirror telescope (see Figure 1) using the alignment procedures described below.
Document Type
Event
Prototyping a Sparse-Aperture, Segmented, Parabolic Primary Mirror Telescope for SUPERSHARP
Salt Palace Convention Center, Salt Lake City, UT
The SUPERSHARP mission concept for large, unfolding, lightweight, sparse-aperture space telescopes is inspired by the ongoing search for life in the universe [1]. The SuperSharp company is developing small-satellite versions of this concept for use in thermal infrared for Earth observation with applications in climate change research [2]. The motivation of my research is to help advance the alignment techniques and procedures of this technology for future applications in space observation at shorter wavelengths; this will be accomplished through the development and alignment of a laboratory prototype of a sparse-aperture, parabolic primary mirror telescope (see Figure 1) using the alignment procedures described below.
