论文信息 - Fast Computation of the Fields Diffracted by a Multi-Layered Conductor With Non-Parallel Rough Interfaces. Application to Eddy-Current Non-Destructive Testing Simulation

Fast Computation of the Fields Diffracted by a Multi-Layered Conductor With Non-Parallel Rough Interfaces. Application to Eddy-Current Non-Destructive Testing Simulation

This paper deals with the computation of quasi-static fields induced in a conductor by a 3-D eddy-current probe. The shape of the slab is locally distorted and constituted by several homogeneous layers with non-parallel interfaces. The approach is based on writing Maxwell equations in a curvilinear system, leading to a simple analytical expression of boundary conditions. Near every interface, the fields are expanded as sums of eigenfunctions depending on the analytical expression of the 1-D profile describing each interface. Finally, a global S-matrix is computed using a stable recursive algorithm which includes the local change of basis needed for a modal description of the fields in layers presenting non-parallel interfaces. Numerical results are presented and compared with other numerical data.

[1] D. Maystre,et al. A new theoretical method for diffraction gratings and its numerical application , 1980 .

[2] D. Prémel,et al. Semi‐analytical computation of a quasi‐static field induced by a 3D eddy current probe scanning a 2D layered conductor with parallel rough interfaces , 2014 .

[3] C. Dodd,et al. ANALYTICAL SOLUTIONS TO EDDY--CURRENT PROBE COIL PROBLEMS. , 1968 .

[4] F. Caire,et al. Semi-analytical computation of a quasi-static field induced by an eddy current probe in a conductor with a rough surface , 2013 .

[5] Lifeng Li,et al. Multilayer modal method for diffraction gratings of arbitrary profile, depth, and permittivity , 1993, OSA Annual Meeting.