Researchers used a 400mm glass thin shell demonstrator with an areal density of approximately to prove the viability of deployable active mirrors.
The technology aims to reduce the mass and cost of launching large-aperture telescopes into orbit.
is part of a degree-5 homogeneous polynomial used to classify certain geometric structures (foliations) in complex projective planes. Project Name LATT (Large Aperture Telescope Technology) Primary Goal Ultra-lightweight, deployable mirrors for space Demonstrator Weight Total system mass of 2686g Source Publication Proc. SPIE Vol. 6750, 67500X (2007) 67500x
The most frequent reference to "67500X" (often as 67500X-1 through 67500X-9) is found in the proceedings of , the international society for optics and photonics.
Based on research into technical and mathematical documentation, "67500x" primarily refers to a specific identification code for scientific research papers or a component within complex mathematical polynomials. Researchers used a 400mm glass thin shell demonstrator
The paper details the development of ultra-lightweight mirrors for space telescopes intended for (Light Detection and Ranging).
: This research was part of a larger project called LATT (Large Aperture Telescope Technology) . Key Findings : 67500x
: It identifies a 2007 paper titled "Deployable, lightweight and large aperture spaceborne telescope for LIDAR based earth observations".