Sound field of thermoacoustic tomography based on a modified finite-difference time-domain method

A modified finite-difference time-domain(FDTD) method is proposed for the sound field simulation of the thermoacoustic tomography(TAT) in the acoustic speed inhomogeneous medium.First,the basic equations of the TAT are discretized to difference ones by the FDTD. Then the electromagnetic pulse,the excitation source of the TAT,is modified twice to eliminate the error introduced by high frequency electromagnetic waves.Computer simulations are carried out to validate this method.It is shown that the FDTD method has a better accuracy than the commonly used time-of-flight(TOF) method in the TAT with the inhomogeneous acoustic speed.The error of the FDTD is ten times smaller than that of the TOF in the simulation for the acoustic speed difference larger than 50%.So this FDTD method is an efficient one for the sound field simulation of the TAT and can provide the theoretical basis for the study of reconstruction algorithms of the TAT in the acoustic heterogeneous medium.