Journal of Synchrotron Radiation (Nov 2023)

Correction and integration of solid-angle data from the azimuthally resolving 2D detector at ID06-LVP, ESRF

  • Wilson A. Crichton,
  • Jérôme Kieffer,
  • Pierre Wattecamps,
  • Valentin Valls,
  • Gilles Berruyer,
  • Marie Ruat,
  • Vincent Favre-Nicolin

DOI
https://doi.org/10.1107/S1600577523008020
Journal volume & issue
Vol. 30, no. 6
pp. 1149 – 1155

Abstract

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The unique diffraction geometry of ESRF beamline ID06-LVP offers continuous static 2D or azimuthally resolving data collections over all accessible solid angles available to the tooling geometry. The system is built around a rotating custom-built Pilatus3 CdTe 900k-W detector from Dectris, in a configuration equivalent to three butted 300k devices. As a non-standard geometry, here the method of alignment, correction and subsequent integration for any data collected over all solid angles accessible, or over any azimuthal range contained therein, are provided and illustrated by parameterizing and extending existing pyFAI routines. At 1° integrated intervals, and typical distances (2.0 m), the system covers an area of near 2.5 m2 (100 Mpx square equivalent), to 0.65 Å resolution, at 53 keV from a total dataset of some 312 Mpx. Standard FWHMs of SRM660a LaB6 vary from 0.005° to 0.01°, depending on beam size, energy and sample dimensions, and are sampled at an elevated rate. The azimuthal range per static frame ranges from <20° to ∼1° over the full range of the detector surface. A full 2θ–intensity data collection at static azimuth takes 1–3 s typically, and can be reduced to ms−1 rates for measurements requiring time-rate determination. A full solid-angle collection can be completed in a minute. Sample detector distances are accessible from 1.6 m to 4.0 m.

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