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Dell’Agnello, S., Delle Monache, G., Vittori, R., Boni, A., Cantone, C., Ciocci, E., Martini, M., Patrizi, G., Tibuzzi, M., Bianco, G., Currie, D., Intaglietta, N., Salvatori, L., Lops, C., Contessa, S., Porcelli, L., Mondaini, C., Tuscano, P. and Maiello, M. (2015) Advanced Laser Retroreflectors for Astrophysics and Space Science. Journal of Applied Mathematics and Physics, 3, 218-227.
http://dx.doi.org/10.4236/jamp.2015.32032

has been cited by the following article:

• TITLE: Planar Retro-Reflector for Grazing Incident Beam of High-Energy X-Ray Photons

  AUTHORS: Hakob Jacob Bezirganyan, Robert Bezirganyan, Siranush Bezirganyan

  KEYWORDS: X-Ray, Diffraction Theory, Single-Crystal, Total Retro-Reflection, Mathieu Functions

  JOURNAL NAME: Journal of Applied Mathematics and Physics, Vol.4 No.9, September 27, 2016

  ABSTRACT: The grazing-incidence hard X-ray retro-reflector (GIRR) is a novel optical element, which completely suppresses the conventional mirror beam in the retro-reflection mode, and, at the same time, totally reflects the primary grazing incident X-radiation backwards to its source in strictly anti-parallel direction with minimal scattering. The GIRR is a good alternative to hard X-ray normal-incidence Bragg mirror, and has a high potential for applications in various X-ray optical devices and techniques, such as, hard X-ray optical noise (or background) filters, high-quality hard X-ray waveguides, low-gain hard X-ray free electron laser resonators (XFELRs), X-ray holography, coherent X-ray diffraction imaging, phase-contrast imaging, as well as in hard X-ray optical data storage devices and deep space hard X-ray communications. The proposed optical element consists of single-crystal wafer covered by a thin, non-diffracting layer of low-absorbing material.