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Geometrically flexible and efficient numerical solution technique for Bragg edge neutron transmission strain tomography. (English) Zbl 1478.78068

MSC:

78M10 Finite element, Galerkin and related methods applied to problems in optics and electromagnetic theory
78A45 Diffraction, scattering
78A46 Inverse problems (including inverse scattering) in optics and electromagnetic theory
78M22 Spectral, collocation and related methods applied to problems in optics and electromagnetic theory
82D75 Nuclear reactor theory; neutron transport
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References:

[1] Aggarwal, R., Lamichhane, B., Meylan, M. and Wensrich, C., ‘A comparison of triangular and quadrilateral finite element meshes for Bragg edge neutron transmission strain tomography’, ANZIAM J.61 (2019), C242-C254.
[2] Aggarwal, R., Lamichhane, B. P., Meylan, M. H. and Wensrich, C. M., ‘An investigation of radial basis function method for strain reconstruction by energy-resolved neutron imaging’, Appl. Sci.11(1) (2021), Article No. 391, 16 pages.
[3] Aggarwal, R., Meylan, M., Lamichhane, B. and Wensrich, C., ‘Finite element approach to Bragg edge neutron strain tomography’, ANZIAM J.60 (2018), C279-C294.
[4] Aggarwal, R., Meylan, M. H., Lamichhane, B. P. and Wensrich, C. M., ‘Energy resolved neutron imaging for strain reconstruction using the finite element method’, J. Imaging6(3) (2020), Article No. 13, 13 pages.
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