International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically based on the Kuznetsov-Zabolotskaya-Khokhlov equation. A set of simulators has been proposed in the literature but none of them takes into account a possible spatial 3-D variation of the nonlinear parameter in the investigated medium. This paper proposes a generalization of the angular spectrum method (GASM) including the spatial variation of the nonlinear parameter. The proposed method computes the evolution of the fundamental and second-harmonic waves in four dimensions (spatial 3-D and time). For validation purposes, the one-way fields produced by the GASM are first compared with those produced by established reference simu-lators and with exp...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
The model study of nonlinear effects in the ultrasound diagnostics is focused on developing and expe...
Harmonic imaging, based on the propagated medium nonlinearity, is a clinical imaging technique which...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
National audienceUltrasound imaging in the superharmonics band is getting important in the ultrasoun...
International audienceThe nonlinear ultrasound field distortion occurs in all biological media and r...
ii Harmonic imaging is from now on clinical routine because it increases the resolution of ultrasoun...
International audienceThe simulation of ultrasound image is usually based on two main strategies: ei...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
In high amplitude ultrasonic fields, such as those used in medical ultrasound, nonlinear propagation...
Numerical modeling of nonlinear (NL) ultrasound (US) beam propagation plays a key role in designing ...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
The model study of nonlinear effects in the ultrasound diagnostics is focused on developing and expe...
Harmonic imaging, based on the propagated medium nonlinearity, is a clinical imaging technique which...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
National audienceUltrasound imaging in the superharmonics band is getting important in the ultrasoun...
International audienceThe nonlinear ultrasound field distortion occurs in all biological media and r...
ii Harmonic imaging is from now on clinical routine because it increases the resolution of ultrasoun...
International audienceThe simulation of ultrasound image is usually based on two main strategies: ei...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
In high amplitude ultrasonic fields, such as those used in medical ultrasound, nonlinear propagation...
Numerical modeling of nonlinear (NL) ultrasound (US) beam propagation plays a key role in designing ...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
The model study of nonlinear effects in the ultrasound diagnostics is focused on developing and expe...
Harmonic imaging, based on the propagated medium nonlinearity, is a clinical imaging technique which...