Reflection and focus of shock waves in lithotripsy

Controlling cavitation has been a primary focus in shock wave lithotripsy (SWL), and techniques such as pulse superposition and waveform inversion have been used to suppress and/or enhance bubble collapses. In order to assess the effectiveness of these ideas, a numerical model of the reflection and steepening of a pressure wave from an axisymmetric lithotripter has been made. The model is based on the Euler equations coupled with the Tait equation of state. It captures wave dynamics in the solid through changes in the reflection coefficient. Results of the pressure field for different reflector shapes are compared with experimental measurements from laser and spark induced shock waves. The designs are evaluated based on how they affect bubbles in the flow field.