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Proceedings/Recueil Des Communications Journal of Physics: Conference Series Année : 2018

A Gaussian beam method for ultrasonic non-destructive evaluation modeling

Résumé

The propagation of high-frequency ultrasonic body waves can be efficiently estimated with a semi-analytic Dynamic Ray Tracing approach using paraxial approximation. Although this asymptotic field estimation avoids the computational cost of numerical methods, it may encounter several limitations in reproducing identified highly interferential features. Nevertheless, some can be managed by allowing paraxial quantities to be complex-valued. This gives rise to localized solutions, known as paraxial Gaussian beams. Whereas their propagation and transmission/reflection laws are well-defined, the fact remains that the adopted complexification introduces additional initial conditions. While their choice is usually performed according to strategies specifically tailored to limited applications, a Gabor frame method has been implemented to indiscriminately initialize a reasonable number of paraxial Gaussian beams. Since this method can be applied for an usefully wide range of ultrasonic transducers, the typical case of the time-harmonic piston radiator is investigated. Compared to the commonly used Multi-Gaussian Beam model [1], a better agreement is obtained throughout the radiated field between the results of numerical integration (or analytical on-axis solution) and the resulting Gaussian beam superposition. Sparsity of the proposed solution is also discussed.

Dates et versions

cea-04251979 , version 1 (20-10-2023)

Identifiants

Citer

Olivier Jacquet, Nicolas Leymarie, Didier Cassereau. A Gaussian beam method for ultrasonic non-destructive evaluation modeling. Journal of Physics: Conference Series, 1017, pp.012006, 2018, ⟨10.1088/1742-6596/1017/1/012006⟩. ⟨cea-04251979⟩
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