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Comparing rigid boundary condition and pressure release boundary condition for modeling ultrasound transducers
This example illustrates the difference between the rigid boundary condition (baffled source) and pressure release boundary condition for modeling ultrasound transducers. Currently, mSOUND uses the pressure release boundary condition, in...
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Integrating mSOUND with FOCUS for transducers of curved shape
This example shows how to integrate mSOUND with FOCUS for simulations involving curved transducers. Currently, only planar phased-arrays can be directly set up in mSOUND for modeling focused beams. To...
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Simulation of a 2D homogeneous medium using the transient mixed domain method
This example demonstrates how to simulate wave propagation in a 2D homogeneous medium using the transient mixed domain method. A focused beam is simulated. Generating the grid structure to define...
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Simulation of a 2D homogeneous medium using the frequency-specific mixed domain method
This example shows how to simulate the wave propagation in a 2D homogeneous medium with the frequency-specific mixed domain method. A focused beam is simulated. Generating the grid structure in...
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Simulation of a 2D heterogeneous medium using the transient mixed domain method
This example demonstrates how to use the transient mixed domain method for simulating wave propagation in 2D heterogeneous media. Defining the medium properties The setup of the computational domain and...
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Simulation of a strongly 2D heterogeneous medium using the transient mixed domain method
This example demonstrates how to use the transient mixed domain method (TMDM) for simulating wave propagation in 2D, strongly heterogeneous media. For strongly heterogeneous media (e.g., skulls), phase and amplitude...
