Abstract
In this study a calculation routine for predicting the ablation topography considering the angle of incidence and the evolution of the ablated surface pulse by pulse is presented and applied. Laser processing of Al2O3 ceramic is studied by the ablation of single craters as well as by macroscopic ablation pockets for a pulse duration of 300fs at a wavelength of 515 nm. The threshold fluence is determined and compared for different process configurations and it is demonstrated that lower scanspeed leads to a higher removal rate. The accuracy of this method is evaluated in an ablation experiment. The presented method is useful for predicting the surface topography in order to optimize the scanpath or to apply machine learning algorithms.
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