High-speed drilling of metals with a long-pulse XeCl excimer laser

Studies of the influence of pulse length on material processing with different lasers have shown that a long pulse is beneficial for processing speed. In this paper a technique of pulse length variation is used in which the pulse length is the only varied parameter. Pulses between 5 and 150 ns length are sliced out of the 175 ns pulse of a long pulse excimer laser. The beam quality for each sliced pulse length is similar. In this paper the results are shown of hole drilling experiments in 125 micron aluminium foil with pulses of 10 and 100 ns length. The influence of the pulse length on material processing is discussed in relationship with equal energy and equal power density of the pulses. This study shows that in both cases long pulses remove more material than short pulses.

[1]  T. Mckee Optical cavity design for long pulse excimer lasers. , 1991, Applied optics.

[2]  Ramon M. Hofstra,et al.  Development of NCLR's 1-kW XeCl laser , 2000, Advanced High-Power Lasers and Applications.

[3]  Xianfan Xu,et al.  Mechanisms of absorption in pulsed excimer laser-induced plasma , 1997 .

[4]  Jagjit Sidhu,et al.  Excimer laser beam shaping and material processing using diffractive optics , 1997, International Symposium on High Power Laser Systems and Applications.

[5]  Ramon M. Hofstra,et al.  Optical quality of NCLR's 1-kW 1-kHz XeCl excimer laser , 2000, Advanced High-Power Lasers and Applications.