The refraction and scattering of nonlinear acoustic waves play an important role in the realistic application of medical ultrasound. One cause of these effects is the tissue dependence of the nonlinear medium behavior. A method that is able to model those effects is essential for the design of transducers for novel ultrasound modalities. Starting from the Westervelt equation, nonlinear pressure wave fields can be modeled via a contrast source formulation, as has been done with the INCS method. An extension of this method will be presented that can handle inhomogeneities in the coefficient of nonlinearity. The contrast source formulation results in an integral equation, which is solved iteratively using a Neumann scheme. The convergence of t...
The basics of nonlinear acoustics and its application to medical ultrasound imaging are introduced. ...
Imaging the acoustical coefficient of nonlinearity, ß, is of interest in several healthcare interven...
The development and optimization of medical ultrasound transducers and imaging modalities require a ...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
In this PhD Thesis, a numerical method is described that accurately predicts the pulsed acoustic pre...
Nonlinear ultrasound is important in medical diagnostics because imaging of the higher harmonics imp...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
For the optimization and development of medical ultrasound transducers and imaging modalities, the I...
Abstract. The Iterative Nonlinear Contrast Source (INCS) method is a full-wave method for the accura...
The basics of nonlinear acoustics and its application to medical ultrasound imaging are introduced. ...
Imaging the acoustical coefficient of nonlinearity, ß, is of interest in several healthcare interven...
The development and optimization of medical ultrasound transducers and imaging modalities require a ...
The refraction and scattering of nonlinear acoustic waves play an important role in the realistic ap...
Numerical methods capable of modeling nonlinear pressure wave fields propagating through inhomogeneo...
The design and optimization of medical ultrasound modalities require a method for modeling the propa...
Experimental data reveals that attenuation is an important phenomenon in medical ultrasound. Attenua...
In this PhD Thesis, a numerical method is described that accurately predicts the pulsed acoustic pre...
Nonlinear ultrasound is important in medical diagnostics because imaging of the higher harmonics imp...
The advantages of nonlinear ultrasound propagation are exploited in an ever increasing number of app...
Nonlinear propagation is important in many diagnostic and therapeutic applications of medical ultras...
For the optimization and development of medical ultrasound transducers and imaging modalities, the I...
Abstract. The Iterative Nonlinear Contrast Source (INCS) method is a full-wave method for the accura...
The basics of nonlinear acoustics and its application to medical ultrasound imaging are introduced. ...
Imaging the acoustical coefficient of nonlinearity, ß, is of interest in several healthcare interven...
The development and optimization of medical ultrasound transducers and imaging modalities require a ...