Travel times and ray paths for acoustic and elastic waves in generally anisotropic media

Ludlam, James and Tant, Katherine and Dolean, Victorita and Curtis, Andrew (2023) Travel times and ray paths for acoustic and elastic waves in generally anisotropic media. Journal of Computational Physics, 494. 112500. ISSN 0021-9991 (https://doi.org/10.1016/j.jcp.2023.112500)

[thumbnail of Ludlam-etal-JCP-2023-Travel-times-and-ray-paths-for-acoustic-and-elastic-waves]
Preview
Text. Filename: Ludlam_etal_JCP_2023_Travel_times_and_ray_paths_for_acoustic_and_elastic_waves.pdf
Final Published Version
License: Creative Commons Attribution 4.0 logo

Download (7MB)| Preview

Abstract

Wavefield travel time tomography is used for a variety of purposes in acoustics, geophysics and non-destructive testing. Since the problem is non-linear, assessing uncertainty in the results requires many forward evaluations. It is therefore important that the forward evaluation of travel times and ray paths is efficient, which is challenging in generally anisotropic media. Given a computed travel time field, ray tracing can be performed to obtain the fastest ray path from any point in the medium to the source of the travel time field. These rays can then be used to speed up gradient based inversion methods. We present a forward modeller for calculating travel time fields by localised estimation of wavefronts, and a novel approach to ray tracing through those travel time fields. These methods have been tested in a complex anisotropic weld and give travel times comparable to those obtained using finite element modelling while being computationally cheaper