Laser-induced cavitation and jetting in thin films

Martin H. Klein Schaarsberg; Yigong Qin; Shuai Li; Claas Willem Visser; Maziyar Jalaal; Detlef Lohse

Laser-induced cavitation and jetting in thin films

ORAL

Abstract

Laser-induced cavitation has a wide range of applications, ranging from needle-free injection to the 3D printing of flexible electronics and biomaterials. We investigate laser-induced cavitation in Newtonian films with a thickness on the order of the size of the cavitation bubble, where the bubble interacts with both the solid and the free surface. We experimentally study the dynamics of the bubble and the free surface, using high-speed imaging. In particular, we visualize the simultaneous interaction of the expanding and collapsing bubble with the free surface and the solid boundary. We further use boundary integral simulations to model the problem.

Nov. 19, 2018, 5:23 PM – Nov. 19, 2018, 5:36 PM

Presenters

Martin H. Klein Schaarsberg
- University of Twente

Authors

Martin H. Klein Schaarsberg
- University of Twente
Yigong Qin
- University of Twente
Shuai Li
- University of Twente
Claas Willem Visser
- University of Twente
Maziyar Jalaal
- University of Twente
Detlef Lohse
- University of Twente
- Physics of Fluids and Max Planck Center for Complex Fluids Dynamics, University of Twente, Enschede, The Netherlands
- Univ of Twente
- Univ of Twente, Max Plank Institute for Dynamics and Self-Organization
- Twente Tech Univ
- University of Twente, Max Planck Center for complex fluid dynamics