论文信息 - Design of Grazing-Incidence Broad-Band Multilayers for Hard X-Ray Reflectors

Design of Grazing-Incidence Broad-Band Multilayers for Hard X-Ray Reflectors

A new method of designing x-ray supermirrors with broad angular or energy response for use as coatings in x-ray optics is presented. The design is based on an analytical method with oversimplified analytical and semi-empirical formulae, and an extensive numerical method is used in the optimization design. A better initial multilayer is obtained with the former method and optimized with the latter method. In the optimization, a good design is achieved with much less computing time. In addition, the saturation effect due to the interfacial roughness in multilayer also emerges in the design of x-ray supermirrors with definite performances. The reflectivity of C/W x-ray supermirrors as a function of photon energy at the fixed grazing incident angle 0.5 degrees is presented.

Zhang Zhong | Wang Feng-Li | Wang Zhanshan | Qin Shu-Ji | Chen Ling-yan

[1] T. Okajima,et al. Fabrication and characterization of multilayer supermirrors for hard X-ray optics. , 1998, Journal of synchrotron radiation.

[2] Igor V. Kozhevnikov,et al. Design of X-ray supermirrors , 2001 .

[3] Jianlin Cao,et al. Depth-graded multilayer X-ray optics with broad angular response , 2000 .

[4] N Gehrels,et al. Supermirror hard-x-ray telescope. , 1998, Applied optics.

[5] N. Ceglio,et al. High‐resolution electron microscopy study of x‐ray multilayer structures , 1987 .

[6] Finn Erland Christensen,et al. Fabrication, performance, and figure metrology of epoxy-replicated aluminum foils for hard x-ray focusing multilayer-coated segmented conical optics , 2000 .

[7] Ben J Hicks,et al. SPIE - The International Society for Optical Engineering , 2001 .

[8] V. V. Protopopov,et al. X-ray multilayer mirrors with an extended angular range , 1998 .