Thermal Forming of Glass Microsheets for X-ray Telescope Mirror Segments
Applied Optics, Vol. 42, Issue 4, pp. 724-735 doi:10.1364/AO.42.000724
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- OCIS Codes:
- (110.6770) Imaging systems : Telescopes
- (220.4610) Optical design and fabrication : Optical fabrication
- (340.0340) X-ray optics : X-ray optics
- (340.7470) X-ray optics : X-ray mirrors
- (350.1260) Other areas of optics : Astronomical optics
- (350.6090) Other areas of optics : Space optics
Citation
Mario A. Jimenez-Garate, Charles J. Hailey, William W. Craig, and Finn E. Christensen, "Thermal Forming of Glass Microsheets for X-ray Telescope Mirror Segments," Appl. Opt. 42, 724-735 (2003)
http://www.opticsinfobase.org/abstract.cfm?URI=ao-42-4-724
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We describe a technology to mass-produce ultrathin mirror substrates for x-ray telescopes of near Wolter-I geometry. Thermal glass forming is a low-cost method to produce high-throughput, spaceborne x-ray mirrors for the 0.1–200-keV energy band. These substrates can provide the collecting area envisioned for future x-ray observatories. The glass microsheets are shaped into mirror segments at high temperature by use of a guiding mandrel, without polishing. We determine the physical properties and mechanisms that elucidate the formation process and that are crucial to improve surface quality. We develop a viscodynamic model for the glass strain as the forming proceeds to find the conditions for repeatability. Thermal forming preserves the x-ray reflectance and scattering properties of the raw glass. The imaging resolution is driven by a large wavelength figure. We discuss the sources of figure errors, and we calculate the relaxation time of surface ripples.
© 2003 Optical Society of America
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