The meter-class carbon fiber reinforced polymer mirror and segmented mirror telescope at the Naval Postgraduate School
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Authors
Wilcox, Christopher
Fernandez, Baustista
Bagnasco, John
Martinez, Ty
Romeo, Robert
Agrawal, Brij
Subjects
Advisors
Date of Issue
2015-03-16
Date
Publisher
SPIE
Language
Abstract
The Adaptive Optics Center of Excellence for National Security at the Naval
Postgraduate School has implemented a technology testing platform and array of
facilities for next-generation space-based telescopes and imaging system
development. The Segmented Mirror Telescope is a 3-meter, 6 segment telescope
with actuators on its mirrors for system optical correction. Currently, investigation
is being conducted in the use of lightweight carbon fiber reinforced polymer
structures for large monolithic optics. Advantages of this material include lower
manufacturing costs, very low weight, and high durability and survivability
compared to its glass counterparts. Design and testing has begun on a 1-meter,
optical quality CFRP parabolic mirror for the purpose of injecting collimated laser
light through the SMT primary and secondary mirrors as well as the following aft
optics that include wavefront sensors and deformable mirrors. This paper will
present the design, testing, and usage of this CFRP parabolic mirror and the
current path moving forward with this ever-evolving technology.
Type
Article
Description
The article of record as published may be found at http://dx.doi.org/10.1117/12.2082628
Series/Report No
Department
Organization
Naval Postgraduate School (U.S.)
Identifiers
NPS Report Number
Sponsors
Office of Naval Research
Air Force Research Laboratory
Naval Research Laboratory (NRL)
Air Force Research Laboratory
Naval Research Laboratory (NRL)
Funder
Format
9 p.
Citation
Christopher Wilcox, Bautista Fernandez, John Bagnasco, Ty Martinez,
Robert Romeo, Brij Agrawal, "The meter-class carbon fiber reinforced
polymer mirror and segmented mirror telescope at the Naval Postgraduate
School," Proc. SPIE 9354, Free-Space Laser Communication and
Atmospheric Propagation XXVII, 93540J (16 March 2015)
Distribution Statement
Rights
This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.