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The high power pulsed laser Prague asterix laser system (PALS), operating at the fundamental (1
ω) and third (3
ω) harmonics (1315 and 438
nm wavelengths, respectively), is employed in a single-shot mode to irradiate tantalum targets in vacuum. The laser pulse width is 400
ps and the laser pulse energy ranges between 43 and 736
J at 1
ω and between 12 and 230
J at 3
ω. High ablation yields (0.1–0.6
mg per pulse) are measured as a function of the laser pulse energy at both wavelengths; at 438
nm higher etching rates are observed. The produced craters are analysed by the scanning electron microscope (SEM) and by the high sensitivity surface profiler system. They are investigated in dimension, shape and angle aperture as a function of the incident laser energy. Different possible mechanisms responsible for the different crater shapes are presented and discussed.