
Strategies for data collection and calibration with a pinhole‐geometry SAXS instrument on a synchrotron beamline
Author(s) -
Cookson David,
Kirby Nigel,
Knott Robert,
Lee Myungae,
Schultz David
Publication year - 2006
Publication title -
journal of synchrotron radiation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.172
H-Index - 99
ISSN - 1600-5775
DOI - 10.1107/s0909049506030184
Subject(s) - beamline , optics , small angle x ray scattering , pinhole (optics) , scattering , detector , pinhole camera , synchrotron , undulator , advanced photon source , materials science , physics , laser , beam (structure)
Undulator X‐ray sources on third‐generation synchrotrons have pushed small‐angle X‐ray scattering (SAXS) to the forefront of techniques in nanoscience and technology. With higher X‐ray fluxes and improved focusing, it is usually the scattered intensity detector that places the most serious limitations on the overall capabilities of the instrument. Incorporating relatively simple components like point detectors, scattering standards, masking filters and in‐line sample visualization into the flight tube of a pinhole‐geometry SAXS camera can do much to mitigate these limitations. How these enhancements can be incorporated into routine data collection is demonstrated on the ChemMatCARS SAXS instrument, which utilizes pinhole geometry with an undulator insertion device at sector 15 of the Advanced Photon Source. In addition, with an X‐ray energy range of 6–32 keV (2.0–0.4 Å) and an energy resolution of 10 −4 Δ E / E , this instrument can measure anomalous SAXS over a wide variety of atom species, with reliable normalization of scattered data.