Naval Prototype Optical Interferometer (NPOI) Upgrade with Lightweight Telescopes and Adaptive Optics: A Status Update

The portability of meter-class telescopes has been limited by the weight of the mirror, tube assembly, and the mount required to provide pointing and tracking. The novel lightweight carbon fiber-reinforced polymer telescopes being developed for array population at the Naval Prototype Optical Interfe...

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Hauptverfasser:	Restaino, Sergio R, Andrews, Jonathan R, Armstrong, Tom, Wilcox, Christopher C, Romeo, Robert, Martin, Robert
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Sprache:	eng
Schlagworte:	ADAPTIVE OPTICS APERTURES CARBON FIBER REINFORCED POLYMERS CARBON FIBERS COMPONENT REPORTS FIBER REINFORCED COMPOSITES LIGHTWEIGHT MIRRORS MOUNTS NATO FURNISHED NAVAL EQUIPMENT NPOI(NAVAL PROTOTYPE OPTICAL INTERFEROMETER) Optical Detection and Detectors OPTICAL DETECTORS OPTICAL INTERFEROMETERS Optics PROTOTYPES SYMPOSIA TELESCOPES TRANSPORTABLE
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creator	Restaino, Sergio R Andrews, Jonathan R Armstrong, Tom Wilcox, Christopher C Romeo, Robert Martin, Robert
description	The portability of meter-class telescopes has been limited by the weight of the mirror, tube assembly, and the mount required to provide pointing and tracking. The novel lightweight carbon fiber-reinforced polymer telescopes being developed for array population at the Naval Prototype Optical Interferometer are orders of magnitude lighter than traditional telescopes. When combined with a lightweight carbon fiber mount, these telescopes will be easily transportable from one telescope station to another to change the interferometer baseline. The mount for a lightweight telescope is currently under development at Composite Mirror Applications, Inc. This paper reports on the design constraints of the mount, the scalability to larger aperture telescopes, and the integration of sensors to measure the performance characteristics of this system during operation. See also ADM401234. Presented at the RTO Sensors and Electronics Technology Panel (SET) Specialist Meeting held at the Maui High Performance Computing Center (MHPCC), Maui, HI on 24-25 Apr 2006. Published in the Proceedings of Space Sensing and Situational Awareness (RTO-MP-SET-105, AC/323(SET-105)TP/62), Paper No. 22, p22-1 to 22-8), 2006. Prepared in collaboration with the New Mexico Institute of Mining and Technology, Electrical Engineering Department, Socorro, NM and Composite Mirror Applications, Tucson, AZ. The original document contains color images.
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The novel lightweight carbon fiber-reinforced polymer telescopes being developed for array population at the Naval Prototype Optical Interferometer are orders of magnitude lighter than traditional telescopes. When combined with a lightweight carbon fiber mount, these telescopes will be easily transportable from one telescope station to another to change the interferometer baseline. The mount for a lightweight telescope is currently under development at Composite Mirror Applications, Inc. This paper reports on the design constraints of the mount, the scalability to larger aperture telescopes, and the integration of sensors to measure the performance characteristics of this system during operation. See also ADM401234. Presented at the RTO Sensors and Electronics Technology Panel (SET) Specialist Meeting held at the Maui High Performance Computing Center (MHPCC), Maui, HI on 24-25 Apr 2006. Published in the Proceedings of Space Sensing and Situational Awareness (RTO-MP-SET-105, AC/323(SET-105)TP/62), Paper No. 22, p22-1 to 22-8), 2006. Prepared in collaboration with the New Mexico Institute of Mining and Technology, Electrical Engineering Department, Socorro, NM and Composite Mirror Applications, Tucson, AZ. The original document contains color images.</description><language>eng</language><subject>ADAPTIVE OPTICS ; APERTURES ; CARBON FIBER REINFORCED POLYMERS ; CARBON FIBERS ; COMPONENT REPORTS ; FIBER REINFORCED COMPOSITES ; LIGHTWEIGHT ; MIRRORS ; MOUNTS ; NATO FURNISHED ; NAVAL EQUIPMENT ; NPOI(NAVAL PROTOTYPE OPTICAL INTERFEROMETER) ; Optical Detection and Detectors ; OPTICAL DETECTORS ; OPTICAL INTERFEROMETERS ; Optics ; PROTOTYPES ; SYMPOSIA ; TELESCOPES ; TRANSPORTABLE</subject><creationdate>2006</creationdate><rights>Approved for public release; distribution is unlimited. 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Published in the Proceedings of Space Sensing and Situational Awareness (RTO-MP-SET-105, AC/323(SET-105)TP/62), Paper No. 22, p22-1 to 22-8), 2006. Prepared in collaboration with the New Mexico Institute of Mining and Technology, Electrical Engineering Department, Socorro, NM and Composite Mirror Applications, Tucson, AZ. 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subjects	ADAPTIVE OPTICS APERTURES CARBON FIBER REINFORCED POLYMERS CARBON FIBERS COMPONENT REPORTS FIBER REINFORCED COMPOSITES LIGHTWEIGHT MIRRORS MOUNTS NATO FURNISHED NAVAL EQUIPMENT NPOI(NAVAL PROTOTYPE OPTICAL INTERFEROMETER) Optical Detection and Detectors OPTICAL DETECTORS OPTICAL INTERFEROMETERS Optics PROTOTYPES SYMPOSIA TELESCOPES TRANSPORTABLE
title	Naval Prototype Optical Interferometer (NPOI) Upgrade with Lightweight Telescopes and Adaptive Optics: A Status Update
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