The study of the interaction of bubbles with shock waves and ultrasound is sometimes
termed 'acoustic cavitation'. It is of importance in many biomedical applications where sound …

Bubbles in liquids, soft and squeezy objects made of gas and vapour, yet so strong as to
destroy any material and so mysterious as at times turning into tiny light bulbs, are the topic …

Gas bubbles are the most potent naturally-occurring entities that influence the acoustic
environment in liquids. Upon entrainment under breaking waves, waterfalls, or rainfall over …

A high-order accurate shock-and interface-capturing scheme is used to simulate the
collapse of a gas bubble in water. In order to better understand the damage caused by …

It is found that the original ghost fluid method (GFM) as put forth by Fedkiw et al.[J. Comp.
Phys. 152 (1999) 457] does not work consistently and efficiently using isentropic fix when …

Small-charge underwater explosion experiments were performed to investigate bubbles
subjected to gravity and various boundary conditions, including single boundary (free …

We develop a shock-and interface-capturing numerical method that is suitable for the
simulation of multicomponent flows governed by the compressible Navier–Stokes equations …

A front-tracking/ghost-fluid method is introduced for simulations of fluid interfaces in
compressible flows. The new method captures fluid interfaces using explicit front-tracking …

A novel finite-volume interface (contact) capturing method is presented for simulation of multi-
component compressible flows with high density ratios and strong shocks. In addition, the …

We present a new reconnection-based arbitrary-Lagrangian–Eulerian (ALE) method. The
main elements in a standard ALE simulation are an explicit Lagrangian phase in which the …