Difference between revisions of "Sparse Apertures for Next Generation Optical Space Telescopes"
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* '''1SASOT - Sparse Aperture Space Optical Telescope''' | * '''1SASOT - Sparse Aperture Space Optical Telescope''' | ||
This a Level 1 roadmap that evaluates the system architecture required to achieve large effective aperture space optical telescopes using sparse aperture techniques. A Level 2 roadmap would describe the technological progress required to achieve a particular sparse aperture | This a Level 1 roadmap that evaluates the system architecture required to achieve large effective aperture space optical telescopes using sparse aperture techniques. A Level 2 roadmap would describe the technological progress required to achieve a particular sparse aperture technique (deployable, formation flying, or erecting on-orbit). A Level 3 or 4 roadmap would describe individual enabling technologies such as on orbit alignment metrology, and precision formation flying). | ||
== Roadmap Overview == | == Roadmap Overview == | ||
The angular resolution of a telescope is proportional to the size of the aperture. The mass and thus cost of space telescopes increases exponentially with aperture diameter. There is a need for systems that can produce the equivalent of a large aperture with low mass. This can be achieved by creating a synthetic aperture using multiple sub-apertures. One method to achieve this is to create a large number of small spacecraft, flying in a formation that creates the synthetic aperture. | |||
... | [[File:/Users/Chris/Desktop/Screen Shot 2019-10-06 at 12.36.36 PM.png|thumb|Star-9 Sparse Aperture Lab Demonstration by Lockheed Martin]] | ||
== DSM Allocation == | == DSM Allocation == | ||
Revision as of 17:37, 6 October 2019
Technology Roadmap Sections and Deliverables
This technology roadmap is identified as follows:
- 1SASOT - Sparse Aperture Space Optical Telescope
This a Level 1 roadmap that evaluates the system architecture required to achieve large effective aperture space optical telescopes using sparse aperture techniques. A Level 2 roadmap would describe the technological progress required to achieve a particular sparse aperture technique (deployable, formation flying, or erecting on-orbit). A Level 3 or 4 roadmap would describe individual enabling technologies such as on orbit alignment metrology, and precision formation flying).
Roadmap Overview
The angular resolution of a telescope is proportional to the size of the aperture. The mass and thus cost of space telescopes increases exponentially with aperture diameter. There is a need for systems that can produce the equivalent of a large aperture with low mass. This can be achieved by creating a synthetic aperture using multiple sub-apertures. One method to achieve this is to create a large number of small spacecraft, flying in a formation that creates the synthetic aperture.
DSM Allocation
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Roadmap OPM Model
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