In a previous paper [Sasso et al. (2023). J. Appl. Cryst. 56, 707-715], the operation of a triple-Laue X-ray interferometer having the splitting or recombining crystal cylindrically bent was studied. It was predicted that the phase-contrast topography of the interferometer detects the displacement field of the inner crystal surfaces. Therefore, opposite bendings result in the observation of opposite (compressive or tensile) strains. This paper reports on the experimental confirmation of this prediction, where opposite bendings were obtained by copper deposition on one or the other of the crystal sides.
Crystal bending in triple-Laue X-ray interferometry. Part II. Phase-contrast topography / Massa, E; Mana, G; Sasso, Cp. - In: JOURNAL OF APPLIED CRYSTALLOGRAPHY. - ISSN 1600-5767. - 56:Pt 3(2023), pp. 716-724. [10.1107/S1600576723002832]
Crystal bending in triple-Laue X-ray interferometry. Part II. Phase-contrast topography
Massa, E
;Mana, G;Sasso, CP
2023
Abstract
In a previous paper [Sasso et al. (2023). J. Appl. Cryst. 56, 707-715], the operation of a triple-Laue X-ray interferometer having the splitting or recombining crystal cylindrically bent was studied. It was predicted that the phase-contrast topography of the interferometer detects the displacement field of the inner crystal surfaces. Therefore, opposite bendings result in the observation of opposite (compressive or tensile) strains. This paper reports on the experimental confirmation of this prediction, where opposite bendings were obtained by copper deposition on one or the other of the crystal sides.| File | Dimensione | Formato | |
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2023_Crystal_Bending_part2_Phase_Contrast_Topography.pdf
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