|Author:||Anatoly A. Snigirev|
|Title:||Design And Microfabrication Of Novel X-ray Optics (Proceedings of Spie)|
|Format:||azw docx mbr mobi|
|ePUB size:||1118 kb|
|FB2 size:||1377 kb|
|DJVU size:||1784 kb|
|Publisher:||Society of Photo Optical (November 30, 2004)|
PROCEEDINGS VOLUME 4783. Design and Microfabrication of Novel X-Ray Optics. This item is not currently sold. X-ray refractive optics is mainly concerned on a focusing devices. Another kinds of X-ray refractive devices with a new functionality, namely X-ray biprism and Michelsone echelon are considered. An experiment was fulfilled with biprism made from the synthetic diamond crystals on BM05 beamline ESRF.
SPIE 4783, Design and Microfabrication of Novel X-Ray Optics, (21 November 2002); doi: 1. 117/12. Download PDF + save to my library. Kenneth D. Finkelstein, Peter M. Abbamonte, V. O. Kostroun, "Design, microfabrication, and application of novel x-ray optics," Proc. SPIE 4783, Design and Microfabrication of Novel X-Ray Optics, (21 November 2002); Include: Citation Only.
Proceedings of SPIE the International Society for Optical Engineering ; v. 4783. On this site it is impossible to download the book, read the book online or get the contents of a book. The administration of the site is not responsible for the content of the site. The data of catalog based on open source database. All rights are reserved by their owners.
Microfabrication of X-ray Optics. Thesis · January 2008 with 1 Reads. December 2006 · Proceedings of SPIE - The International Society for Optical Engineering. This work presents the design and microfabrication of a novel X-ray micro-optical system for use in an X-ray microprobe for analysis of biological cells. A reflective anical system capable of focusing a wide range of wavelengths has been developed. The lens system consists of a pair of microfabricated optical elements, one of which has variable curvature providing a unique. d zoom focusing capability. Experiments have been carried out to measure the changes of the focal length (lens curvature) and for system calibration.
Development of x-ray pore optics: novel high-resolution silicon millipore optics for XEUS and ultralow mass glass micropore optics for imaging and timing. pages 104–115, November 2004. M. Beijersbergen, S. Kraft, R. Günther, A. L. Mieremet, M. J. Collon, M. Bavdaz, D. H. Lumb, and A. Peacock. Silicon pore optics: novel lightweight high-resolution X-ray optics developed for XEUS
J. Maser, G. Stephenson, S. Vogt, W. Yun, A. Macrander, H. Kang, C. Liu, and R. Conley, Multilayer Laue lenses as high-resolution x-ray optics, in Design and Microfabrication of Novel X-ray Optics II, vol. 5539, A. Snigirev and D. Mancini, eds. (SPIE, 2004), vol. 5539, pp. 185–194. Yan, J. Maser, A. Macrander, Q. Shen, S. Vogt, G. B. Stephenson, and H. Kang, Takagi-Taupin description of x-ray dynamical diffraction from diffractive optics with large numerical aperture, Phys. Rev. B 76, 115438 (2007).
of diffractive x-ray optics here, we wish to quantify the theoretical limit of the model presented here. Locally one-dimensional N-wave coupled wave theory is valid if (i) the optical constants are such that δ, β <<1, and (ii) the thickness of the ZP or MLL satisfies t << f. These conditions are well satisfied for FZPs and MLLs with an outermost zone width of few nm and photon energies of 10 keV and above.
Proceedings of SPIE - The International Society for Optical Engineering. Published - Dec 1 2002.
G. Schroer, M. Kuhlmann, B. Lengeler, O. Kurapova, B. Benner, C. Rau, A. S. Simionovici, A. Snigirev, I. Snigireva: Beryllium parabolic refractive X-ray lenses in Design and Microfabrication of Novel X-Ray Optics, Proc. SPIE, Vol. 4783, ed. by D. C. Mancini (SPIE, Bellingham 2002) pp. 10–18Google Scholar. G. Lengeler, M. Richwin, B. Griesebock, R. Frahm, E. Ziegler, A. Mashayekhi, D. Haeffner, . D. Grunwaldt, A. Baiker: Mapping the chemical states of an element inside a sample using tomographic X-ray absorption spectroscopy, Appl.