A three-dimensional model of the forward propagation of nonlinear sound beams in inhomogeneous media, a generalized Khokhlov-Zabolotskaya-Kuznetsov equation, is described. The Texas time-domain code (which accounts for paraxial diffraction, nonlinearity, thermoviscous absorption, and absorption and dispersion associated with multiple relaxation processes) was extended to solve for the propagation of nonlinear beams for the case where all medium properties vary in space. The code was validated with measurements of the nonlinear acoustic field generated by a phased array transducer operating at 2.5 MHz in water. A nonuniform layer of gel was employed to create an inhomogeneous medium. There was good agreement between the code and measurements...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...
In the paper the investigation results of the influence of such parameters as shape and size of the ...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
A new parabolic equation is derived to describe the propagation of nonlinear sound waves in inhomoge...
The combined effects of acoustic nonlinearity and diffraction on the propagation of intense acoustic...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
A time-domain numerical code (the so-called Texas code) that solves the Khokhlov-Zabolotskaya-Kuznet...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
This dissertation describes a model for acoustic propagation in inhomogeneous flu- ids, and explores...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Boundary (and initial) conditions choice for the effective generation and propagation of nonlinear s...
International audienceA nonlinear parabolic equation (NPE) model for weakly nonlinear sound propagat...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
Nonlinear propagation of intense acoustic waves through inhomogeneous medium is an important problem...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...
In the paper the investigation results of the influence of such parameters as shape and size of the ...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...
A new parabolic equation is derived to describe the propagation of nonlinear sound waves in inhomoge...
The combined effects of acoustic nonlinearity and diffraction on the propagation of intense acoustic...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
A time-domain numerical code (the so-called Texas code) that solves the Khokhlov-Zabolotskaya-Kuznet...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
This dissertation describes a model for acoustic propagation in inhomogeneous flu- ids, and explores...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Boundary (and initial) conditions choice for the effective generation and propagation of nonlinear s...
International audienceA nonlinear parabolic equation (NPE) model for weakly nonlinear sound propagat...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
Nonlinear numerical modeling of finite amplitude acoustic beams has a key role in understanding the ...
Nonlinear propagation of intense acoustic waves through inhomogeneous medium is an important problem...
A time-domain numerical code based on the constitutive relations of nonlinear acoustics for simulati...
In the paper the investigation results of the influence of such parameters as shape and size of the ...
International audienceThe simulation of nonlinear propagation of ultra-sound waves is typically base...