Physics – Optics
Scientific paper
Dec 1998
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1998spie.3448..322k&link_type=abstract
Proc. SPIE Vol. 3448, p. 322-331, Crystal and Multilayer Optics, Albert T. Macrander; Andreas K. Freund; Tetsuya Ishikawa; Denni
Physics
Optics
2
Scientific paper
Recent progress in the manufacturing of X-ray multilayers has opened up new possibilities in the field of hard x-ray optics allowing to produce wide bandpass optical elements through the design of depth-graded multilayer coatings. However, the inverse problem consisting of inferring the composition profile of the multilayer has only been addressed in a semi- empirical way, which encouraged us to develop a new (theoretical) approach. Our method is composed of three steps. First, we use an approximate analytical expression to describe the x-ray reflectivity spectral dependence of any arbitrary graded-multilayer structure. Such an approximation is obtained by assuming the multilayer d-spacing profile to be a monotone function of the depth. The d-spacing gradient is also assumed to be large enough, so that the reflection condition for each given energy is fulfilled in a depth zone that is small compared to the thickness of the multilayer stack. On this basis we could derive the differential equation that describes the change of period necessary to guarantee a given spectral reflectivity profile. Then, a computer code, written for solving the inverse problem, lead us to the desired multilayer period profile. Finally, the effective spectral dependence of reflectivity was accurately computed using a standard matrix method. Simulations of the particular case of constant reflectivity over a wide spectral range are presented. Possible applications of wide bandpass multilayers in synchrotron and astrophysics hard x-ray optics are discussed.
Bukreeva Inna N.
Kozhevnikov Igor V.
Ziegler Eric
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