J. Synchrotron Rad. (2008). 15, 449-457 [ doi:10.1107/S0909049508018931 ]
Abstract: The first application of a pnCCD detector for X-ray scattering experiments using white synchrotron radiation at BESSY II is presented. A Cd arachidate multilayer was investigated in reflection geometry within the energy range 7 keV < E < 35 keV. At fixed angle of incidence the two-dimensional diffraction pattern containing several multilayer Bragg peaks and respective diffuse-resonant Bragg sheets were observed. Since every pixel of the detector is able to determine the energy of every incoming photon with a resolution ![[Delta]](/logos/entities/Delta_rmgif.gif)
E/E ![[asymptotically equal to]](/logos/entities/sime_rmgif.gif)
10-2, a three-dimensional dataset is finally obtained. In order to achieve this energy resolution the detector was operated in the so-called single-photon-counting mode. A full dataset was evaluated taking into account all photons recorded within 105 detector frames at a readout rate of 200 Hz. By representing the data in reciprocal-space coordinates, it becomes obvious that this experiment with the pnCCD detector provides the same information as that obtained by combining a large number of monochromatic scattering experiments using conventional area detectors.
Keywords: pixel sensor; X-ray spectroscopy; pnCCD; GISAXS.
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