This paper presents a feasibility study of robotically constructing a very large aperture optical space telescope on-orbit. Since the largest engineering challenges are likely to reside in the design and assembly of the 150-m diameter primary reflector, this preliminary study focuses on this component. The same technology developed for construction of the primary would then be readily used for the smaller optical structures (secondary, tertiary, etc.). A reasonable set of ground and on-orbit loading scenarios are compiled from the literature and used to define the structural performance requirements and size the primary reflector. A surface precision analysis shows that active adjustment of the primary structure is required in order to meet...
The Large Adaptive Reflector (LAR) is a very large radio telescope proposed by the Dominion Radio a...
The Hubble Space Telescope, with its 2.4-m primary mirror, enabled notable scientific progress and d...
The primary mirror is the most critical component of a space-borne telescope. The size of the primar...
Advances in our understanding of the universe have been enabled by ground and particularly by space-...
The future of astronomy may rely on extremely large space telescopes in order to image Earth-sized e...
Space telescopes are our ‘eyes in the sky’ that enable unprecedented astronomy missions and also per...
This paper describe design and optimize of the lightweight primary mirror assemblies for the space t...
In many types of space mission there is a constant desire for larger and larger instrument apertures...
Astrophysicists demand larger (mirror diameter > 10m) space optical telescopes to investigate more d...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
We present a conceptual design for a scalable (10-50 meter segmented filled-aperture) space observat...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
An architecture and conceptual design for a robotically assembled, modular space telescope (RAMST) t...
The EU project PULSAR (Prototype of an Ultra Large Structure Assembly Robot) carried out a feasibi...
The Large Adaptive Reflector (LAR) is a very large radio telescope proposed by the Dominion Radio a...
The Hubble Space Telescope, with its 2.4-m primary mirror, enabled notable scientific progress and d...
The primary mirror is the most critical component of a space-borne telescope. The size of the primar...
Advances in our understanding of the universe have been enabled by ground and particularly by space-...
The future of astronomy may rely on extremely large space telescopes in order to image Earth-sized e...
Space telescopes are our ‘eyes in the sky’ that enable unprecedented astronomy missions and also per...
This paper describe design and optimize of the lightweight primary mirror assemblies for the space t...
In many types of space mission there is a constant desire for larger and larger instrument apertures...
Astrophysicists demand larger (mirror diameter > 10m) space optical telescopes to investigate more d...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
We present a conceptual design for a scalable (10-50 meter segmented filled-aperture) space observat...
This item was digitized from a paper original and/or a microfilm copy. If you need higher-resolution...
Future space telescope programs need to assess in-space robotic assembly of large apertures at GEO a...
An architecture and conceptual design for a robotically assembled, modular space telescope (RAMST) t...
The EU project PULSAR (Prototype of an Ultra Large Structure Assembly Robot) carried out a feasibi...
The Large Adaptive Reflector (LAR) is a very large radio telescope proposed by the Dominion Radio a...
The Hubble Space Telescope, with its 2.4-m primary mirror, enabled notable scientific progress and d...
The primary mirror is the most critical component of a space-borne telescope. The size of the primar...