Translator Disclaimer
1 September 1991 High-resolution imaging with multilayer soft x-ray, EUV, and FUV telescopes of modest aperture and cost
Author Affiliations +
The development of multilayer reflective coatings now permits soft X-ray, EUV and FUV radiation to be efficiently imaged by conventional normal incidence optical configurations. Telescopes with quite modest apertures can, in principle, achieve images with resolutions which would require apertures of 1.25 meters or more at visible wavelengths. The progress is reviewed which has been made in developing compact telescopes for ultra-high resolution imaging of the sun at soft X-ray, EUV and FUV wavelengths, including laboratory test results and astronomical images obtained with rocket-borne multilayer telescopes. The factors are discussed which limit the resolution which has been achieved so far, and the problems which must be addressed to attain, and surpass the 0.1 arc-second level. The application of these technologies to the development of solar telescopes for future space missions is also described.
© (1991) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Arthur B. C. Walker II, Joakim F. Lindblom, J. Gethyn Timothy, Richard B. Hoover, Troy W. Barbee Jr., Phillip C. Baker, and Forbes R. Powell "High-resolution imaging with multilayer soft x-ray, EUV, and FUV telescopes of modest aperture and cost", Proc. SPIE 1494, Space Astronomical Telescopes and Instruments, (1 September 1991);


ART XC SRG joint calibration of mirror modules and...
Proceedings of SPIE (August 29 2017)
A complex solar X-ray and EUV imaging telescope design
Proceedings of SPIE (February 04 2004)
X-ray telescopes for the ESA XMM spacecraft
Proceedings of SPIE (November 19 1998)
A hard x ray telescope science enhancement package for the...
Proceedings of SPIE (September 20 2007)
Active sun telescope array
Proceedings of SPIE (February 01 1991)
Hard x-ray telescope mission
Proceedings of SPIE (October 12 1996)

Back to Top