Abstract
A crystal spectrometer for rocket and satellite experiments is described. Parallel x rays from a stellar object are reflected at constant angle by Bragg crystals arranged around the sector of a cone so that a single wavelength is brought to a focus onto the axis of the cone. The aberrations produced when this array is tilted to change the wavelength are considered. It is shown that these are minimized by moving cone and detector in a nearly θ–2θ motion and by using a small-angle sector. In a specific design for a satellite instrument using LiF crystal to observe a spectral region including the iron lines at 1.9 Å, a spectral resolution of 3 mÅ over a spectral range of 1.6–2.1 Å can be obtained, with the cosmic-ray background rate, and hence the time to detect a weak line decreased by a factor 80 compared to a flat crystal spectrometer. Examples of performance for a low energy rocket experiment are also given.
© 1973 Optical Society of America
Full Article | PDF ArticleMore Like This
Herbert W. Schnopper and Bjarne P. Byrnak
Appl. Opt. 26(14) 2871-2876 (1987)
Herbert W. Schnopper and Paul O. Taylor
Appl. Opt. 19(19) 3306-3312 (1980)
Bjarne P. Byrnak, Finn E. Christensen, Niels J. Westergaard, and Herbert W. Schnopper
Appl. Opt. 24(16) 2543-2548 (1985)