In Situ Coherent X-ray Diffraction during Three-Point Bending of a Au Nanowire: Visualization and Quantification - Archive ouverte HAL
Article Dans Une Revue Quantum Beam Science Année : 2018

In Situ Coherent X-ray Diffraction during Three-Point Bending of a Au Nanowire: Visualization and Quantification

Résumé

The three-point bending behavior of a single Au nanowire deformed by an atomic force microscope was monitored by coherent X-ray diffraction using a sub-micrometer sized hard X-ray beam. Three-dimensional reciprocal-space maps were recorded before and after deformation by standard rocking curves and were measured by scanning the energy of the incident X-ray beam during deformation at different loading stages. The mechanical behavior of the nanowire was visualized in reciprocal space and a complex deformation mechanism is described. In addition to the expected bending of the nanowire, torsion was detected. Bending and torsion angles were quantified from the high-resolution diffraction data.
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Dates et versions

hal-01937007 , version 1 (27-11-2018)

Identifiants

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Anton Davydok, Thomas W. Cornelius, Zhe Ren, Cédric Leclere, Gilbert Chahine, et al.. In Situ Coherent X-ray Diffraction during Three-Point Bending of a Au Nanowire: Visualization and Quantification. Quantum Beam Science, 2018, 2 (4), ⟨10.3390/qubs2040024⟩. ⟨hal-01937007⟩
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