Title :
Phase-coded pulse sequence for non-linear imaging
Author :
Wilkening, W. ; Krueger, M. ; Ermert, H.
Author_Institution :
Dept. of Electr. Eng., Ruhr-Univ., Bochum, Germany
Abstract :
Nonlinear imaging modes are of great interest for perfusion imaging with contrast agents and for tissue harmonic imaging, i.e. a technique that provides improved spatial and contrast resolution. For both applications, many tradeoffs have to be made concerning transmit power, imaging depth, resolution, frame rate etc. because of the non-linear nature of the effects used for imaging. Time domain and spatial domain phase inversion (pulse inversion) techniques have been successfully introduced. Longer pulse sequences in combination with phase inversion allow for lower acoustic peak intensities or higher penetration depth. However, phase inversion eliminates all spectral components that are related to odd order non-linearities. We propose a phase-coded 5-pulse sequence that overcomes this limitation while providing the desired increase in SNR
Keywords :
biological tissues; biomedical ultrasonics; image resolution; phase coding; time-domain analysis; SNR; contrast agents; contrast resolution; frame rate; higher penetration depth; imaging depth; lower acoustic peak intensities; nonlinear imaging; odd order nonlinearities; perfusion imaging; phase inversion; phase-coded 5-pulse sequence; phase-coded pulse sequence; pulse inversion; pulse sequences; resolution; spatial domain phase inversion; spatial resolution; spectral components; time domain phase inversion; tissue harmonic imaging; transmit power; Acoustic beams; Acoustic imaging; Acoustic pulses; Bandwidth; Frequency; High-resolution imaging; Power harmonic filters; Pulse inverters; Signal generators; Spatial resolution;
Conference_Titel :
Ultrasonics Symposium, 2000 IEEE
Conference_Location :
San Juan
Print_ISBN :
0-7803-6365-5
DOI :
10.1109/ULTSYM.2000.921621
