中国物理B ›› 2011, Vol. 20 ›› Issue (8): 84302-084302.doi: 10.1088/1674-1056/20/8/084302
李宜令1, 章东2, 马青玉3, 夏荣民4
Li Yi-Ling(李宜令)a), Ma Qing-Yu(马青玉) b)†, Zhang Dong(章东)c), and Xia Rong-Min(夏荣民)d)
摘要: An acoustic dipole radiation model for magnetoacoustic tomography with magnetic induction (MAT-MI) is proposed, based on the analyses of one-dimensional tissue vibration, three-dimensional acoustic dipole radiation and acoustic waveform detection with a planar piston transducer. The collected waveforms provide information about the conductivity boundaries in various vibration intensities and phases due to the acoustic dipole radiation pattern. Combined with the simplified back projection algorithm, the conductivity configuration of the measured layer in terms of shape and size can be reconstructed with obvious border stripes. The numerical simulation is performed for a two-layer cylindrical phantom model and it is also verified by the experimental results of MAT-MI for a tissue-like sample phantom. The proposed model suggests a potential application of conductivity differentiation and provides a universal basis for the further study of conductivity reconstruction for MAT-MI.
中图分类号: (Acoustical measurement methods in biological systems and media)