Author:
Ruiz-Lopez M.,Faenov A.,Pikuz T.,Ozaki N.,Mitrofanov A.,Albertazzi B.,Hartley N.,Matsuoka T.,Ochante R.,Tange Y.,Yabuuchi T.,Habara T.,Tanaka K. A.,Inubushi Y.,Yabashi M.,Nishikino M.,Kawachi T.,Pikuz S.,Ishikawa T.,Kodama R.,Bleiner D.
Abstract
Direct metrology of coherent short-wavelength beamlines is important for obtaining operational beam characteristics at the experimental site. However, since beam-time limitation imposes fast metrology procedures, a multi-parametric metrology from as low as a single shot is desirable. Here a two-dimensional (2D) procedure based on high-resolution Fresnel diffraction analysis is discussed and applied, which allowed an efficient and detailed beamline characterization at the SACLA XFEL. So far, the potential of Fresnel diffraction for beamline metrology has not been fully exploited because its high-frequency fringes could be only partly resolved with ordinary pixel-limited detectors. Using the high-spatial-frequency imaging capability of an irradiated LiF crystal, 2D information of the coherence degree, beam divergence and beam quality factor M
2 were retrieved from simple diffraction patterns. The developed beam metrology was validated with a laboratory reference laser, and then successfully applied at a beamline facility, in agreement with the source specifications.
Publisher
International Union of Crystallography (IUCr)
Subject
Instrumentation,Nuclear and High Energy Physics,Radiation
Cited by
11 articles.
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