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- Incubation (1) (entfernen)
Near-IR femtosecond (fs) (pulse duration = 150 fs, wavelength = 775 nm, repetition
rate 1 kHz) and VUV nanosecond (ns) (pulse duration = 20 ns, wavelength = 157 nm,
repetition rate 1 to 5 Hz) laser pulse ablation of single-crystalline TeO2 (c-TeO2 ) surfaces
was performed in air using the direct focusing technique. A multi-method
characterization using optical microscopy, atomic force microscopy and scanning
electron microscopy revealed the surface morphology of the ablated craters. This allowed
us at each irradiation site to characterize precisely the lateral and vertical dimensions of
the laser-ablated craters for different laser pulse energies and number of laser pulses per
spot. Based on the obtained information, we quantitatively determined the ablation
threshold fluence for the fs laser irradiation when different pulse numbers were applied to
the same spot using two independent extrapolation techniques. We found that in the case
of NIR fs laser pulse irradiation, the ablation threshold significantly depends on the
number of laser pulses applied to the same spot indicating that incubation effects play an
important role in this material. In the case of VUV ns laser pulses, the ablation rate is
significantly higher due to the high photon energy and the predominantly linear
absorption in the material. These results are discussed on the basis of recent models of the
interaction of laser pulses with dielectrics. In the second part of this chapter, we use time-
of-flight mass spectrometry (TOFMS) to analyze the elemental composition of the
ablation products generated upon laser irradiation of c-TeO2 with single fs- (pulse
duration ~200 fs, wavelength 398 nm) and ns-pulses (pulse duration 4 ns, wavelength
355 nm). Due to the three order of magnitude different peak intensities of the ns- and fs
laser pulses, significant differences were observed regarding the laser-induced species in
the plasma plume. Positive singly, doubly and triply charged Te ions (Te+, Te2+, Te3+) in
the form of many different isotopes were observed in case of both irradiations. In the case
of the ns-laser ablation, the TeO+ formation was negligible compared to the fs case and
there was no Te trimer (Te3+) formation observed. It was found that the amplitude of Te
ion signals strongly depends on the applied laser pulse energy. Singly charged oxygen
ions (O+) are always present as a byproduct in both kinds of laser ablation.