Seminars_raw

Frozen Gaussian approximation for 3-D elastic wave propagation and seismic tomography

2018-12-13 00:00

Speaker: Xu Yang

unit:

Time: 2018-08-21 10:00-11:00

Venue: The Wei Jin Road No. 6 Building 111 campus teaching

starttime: 2018-08-21 10:00-11:00

Profile:


Theme:
Frozen Gaussian approximation for 3-D elastic wave propagation and seismic tomography
Time:
2018-08-21 10:00-11:00
Venue:
The Wei Jin Road No. 6 Building 111 campus teaching
Speaker:
Xu Yang

Abstract

Three-dimensional (3-D) elastic wave propagation and seismic tomography is computationally challenging in large scales and high-frequency regime. In this talk, we propose the frozen Gaussian approximation (FGA) to compute the 3-D elastic wave equation and use it as t he forward modeling tool for seismic tomography with high-frequency data. The derivation requires to do asymptotic expansion in the week sense (integral form) so that one is able to perform integration by parts. In particular, we obtain the diabatic coupling terms for SH- and SV-waves, with the form closely connecting to the concept of Berry phase that is intensively studied in quantum mechanics and topology (Chern number). The accuracy and parallelizability of the FGA algorithm is illustrated by comparing to the spectral element method for 3-D elastic wave equation. With a parallel FGA solver built as an computational engine, we explore various applications in 3-D seismic tomography.


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