Improving laser-driven flyer efficiency with high absorptance layers

Abstract

Laser driven flyers are produced on the interaction of a laser pulse with a thin film of metal. When an Nd:YAG laser is focussed through a transparent substrate onto a 5 micron film of aluminium, a fraction of the metal is ablated. The associated expansion causes the remaining aluminium to be punched from the film and launched as a discrete flyer. Due to the high reflectivity of aluminium, some of the laser energy is lost through reflection at the substrate/metal boundary. By introducing metals which exhibit stronger absorption at the Nd:YAG wavelength (1.064 μm), the laser coupling to the flyer should be improved, resulting in faster flyer velocities for a given pulse energy. This paper discusses the results of using Hf, Ge, Zn and Ti to improve the coupling of the Nd:YAG laser to the flyer. © 2012 American Institute of Physics.