Distorted Born Diffraction Tomography: limits and applications to inverse the ultrasonic field scattered by an non-circular infinite elastic tube

TL;DR

This paper investigates the limits and applications of distorted Born diffraction tomography for inverse ultrasonic scattering by non-circular elastic tubes, enhancing quantitative ultrasonic imaging capabilities.

Contribution

It extends the distorted Born iterative method to higher orders for better quantitative ultrasonic imaging of non-circular elastic objects.

Findings

Enhanced imaging of non-circular elastic tubes.

Quantitative estimates of sound speed and attenuation.

Potential applications in medicine and underwater acoustics.

Abstract

This study focuses on the application of ultra sonic diffrac tion tomography to noncircular 2D-cylindri - cal ob jects im mersed in an in fi nite fluid. The dis torted Born it er a tive method used to solve the in verse scat ter ing prob lem be longs to the class of al ge braic re con struc tion al go rithms. This method was de vel - oped to in crease the or der of ap pli ca tion of the Born ap prox i ma tion (in the case of weakly-con trasted me dia) to higher or ders. This yields quan ti ta tive in for ma tion about the scat terer, such as the speed of sound and the at ten u a tion. Quan ti ta tive ul tra sonic im ag ing tech niques of this kind are of great po ten tial value in fields such as med i cine, un der wa ter acous tics and non de struc tive test ing.