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Main Authors: Ferrari, Elena, Ferrari, Claudio, Baruchel, Josè, Caliste, Thu Ni Tran, Basso, Stefano, Chauhan, Akanshu, Salmaso, Bianca, Sisana, Davide, Spiga, Daniele
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.03787
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_version_ 1866910986746724352
author Ferrari, Elena
Ferrari, Claudio
Baruchel, Josè
Caliste, Thu Ni Tran
Basso, Stefano
Chauhan, Akanshu
Salmaso, Bianca
Sisana, Davide
Spiga, Daniele
author_facet Ferrari, Elena
Ferrari, Claudio
Baruchel, Josè
Caliste, Thu Ni Tran
Basso, Stefano
Chauhan, Akanshu
Salmaso, Bianca
Sisana, Davide
Spiga, Daniele
contents ADP crystals of large dimensions (80x80x20 mm3), to be used as a X-ray beam expanders in the BEaTriX facility at INAF-OABrera, have been characterised at BM05 beamline at ESRF synchrotron with the main purpose to determine lattice plane curvature with a unprecedent accuracy, as the BEaTriX setup requires a radius of curvature larger than 22 km. In this beamline, the monochromator is made by 2 Si(111) parallel crystals in the non-dispersive configuration. Due to the difference in the Bragg angles between the Si(111) monochromator and the ADP(008) diffractions, only a limited part of the sample area, hit by the X-ray beam (11x11 mm2 cross section), produced a diffracted beam for a given value of angle of incidence. In the rocking curve imaging techniques, a full image of the sample for a given peak position is obtained by combining images taken at different angles of incidence compensated by the dispersion correction, that is the Bragg condition difference in different points of the sample. It is found that the resulting image size parallel to the scattering plane is affected by this dispersion correction. A 4.5 % elongation along the scattering plane was evaluated in the present Bragg case. This contribution is opposite in the Laue case.
format Preprint
id arxiv_https___arxiv_org_abs_2506_03787
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Effect of chromatic dispersion on image size and lattice plane curvature measurements with Rocking Curve Imaging
Ferrari, Elena
Ferrari, Claudio
Baruchel, Josè
Caliste, Thu Ni Tran
Basso, Stefano
Chauhan, Akanshu
Salmaso, Bianca
Sisana, Davide
Spiga, Daniele
Instrumentation and Detectors
ADP crystals of large dimensions (80x80x20 mm3), to be used as a X-ray beam expanders in the BEaTriX facility at INAF-OABrera, have been characterised at BM05 beamline at ESRF synchrotron with the main purpose to determine lattice plane curvature with a unprecedent accuracy, as the BEaTriX setup requires a radius of curvature larger than 22 km. In this beamline, the monochromator is made by 2 Si(111) parallel crystals in the non-dispersive configuration. Due to the difference in the Bragg angles between the Si(111) monochromator and the ADP(008) diffractions, only a limited part of the sample area, hit by the X-ray beam (11x11 mm2 cross section), produced a diffracted beam for a given value of angle of incidence. In the rocking curve imaging techniques, a full image of the sample for a given peak position is obtained by combining images taken at different angles of incidence compensated by the dispersion correction, that is the Bragg condition difference in different points of the sample. It is found that the resulting image size parallel to the scattering plane is affected by this dispersion correction. A 4.5 % elongation along the scattering plane was evaluated in the present Bragg case. This contribution is opposite in the Laue case.
title Effect of chromatic dispersion on image size and lattice plane curvature measurements with Rocking Curve Imaging
topic Instrumentation and Detectors
url https://arxiv.org/abs/2506.03787