The RATIO method for time‐resolved Laue crystallography | Zendy

Coppens Philip | Zendy; Pitak Mateusz | Zendy; Gembicky Milan | Zendy; Messerschmidt Marc | Zendy; Scheins Stephan | Zendy; Benedict Jason | Zendy; Adachi Shinichi | Zendy; Sato Tokushi | Zendy; Nozawa Shunsuke | Zendy; Ichiyanagi Kohei | Zendy; Chollet Matthieu | Zendy; Koshihara Shinya | Zendy

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The RATIO method for time‐resolved Laue crystallography

Author(s) -

Coppens Philip,

Pitak Mateusz,

Gembicky Milan,

Messerschmidt Marc,

Scheins Stephan,

Benedict Jason,

Adachi Shinichi,

Sato Tokushi,

Nozawa Shunsuke,

Ichiyanagi Kohei,

Chollet Matthieu,

Koshihara Shinya

Publication year - 2009

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/s0909049508040892

Subject(s) - synchrotron , scaling , optics , diffraction , wavelength , absorption (acoustics) , anisotropy , intensity (physics) , beam (structure) , x ray crystallography , series (stratigraphy) , materials science , computational physics , physics , chemistry , mathematics , geometry , paleontology , biology

A RATIO method for analysis of intensity changes in time‐resolved pump–probe Laue diffraction experiments is described. The method eliminates the need for scaling the data with a wavelength curve representing the spectral distribution of the source and removes the effect of possible anisotropic absorption. It does not require relative scaling of series of frames and removes errors due to all but very short term fluctuations in the synchrotron beam.

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