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Numerical optimization of spherical variable‐line‐spacing grating X‐ray spectrometers
Author(s) -
Strocov V. N.,
Schmitt T.,
Flechsig U.,
Patthey L.,
Chiuzbăian G. S.
Publication year - 2011
Publication title -
journal of synchrotron radiation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.172
H-Index - 99
ISSN - 1600-5775
DOI - 10.1107/s0909049510054452
Subject(s) - spectrometer , grating , optics , coma (optics) , physics , ray tracing (physics) , blazed grating , acceptance angle , photon energy , optical path , photon , diffraction grating
Operation of an X‐ray spectrometer based on a spherical variable‐line‐spacing (VLS) grating is analyzed using dedicated ray‐tracing software allowing fast optimization of the grating parameters and spectrometer geometry. The analysis is illustrated with optical design of a model spectrometer to deliver a resolving power above 20400 at a photon energy of 930 eV (Cu L ‐edge). With this energy taken as reference, the VLS coefficients are optimized to cancel the lineshape asymmetry (mostly from the coma aberrations) as well as minimize the symmetric aberration broadening at large grating illuminations, dramatically increasing the aberration‐limited vertical acceptance of the spectrometer. For any energy away from the reference, corrections to the entrance arm and light incidence angle on the grating are evaluated to maintain the exactly symmetric lineshape. Furthermore, operational modes when these corrections are coordinated are evaluated to maintain either energy‐independent focal curve inclination or maximal aberration‐limited spectrometer acceptance. The results are supported by analytical evaluation of the coma term of the optical path function. This analysis thus gives a recipe for designing a high‐resolution spherical VLS grating spectrometer operating with negligible aberrations at large acceptance and over an extended energy range.

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