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@proceedings{970778, author = {Krajcarová, Lucie and Hrdlička, Aleš and Novotný, Karel and Kaiser, Jozef and Malina, Radomír and Balachninaite, Ona and Baskevicius, A. and Ottaviano, L. and Prezioso, S. and Donarelli, M. and Prochazka, David}, booktitle = {EMSLIBS 2011}, keywords = {LIBS; Nd:YAG; Yb-KGW; Capillary-Discharge Based XUV laser}, language = {eng}, title = {A Comparative Study of Laser-Ablation of Selected Targets by ns Nd:YAG, fs Yb-KGW and Capillary-Discharge Based XUV Lasers for Laser-Induced Breakdown Spectroscopy}, year = {2011} }
TY - CONF ID - 970778 AU - Krajcarová, Lucie - Hrdlička, Aleš - Novotný, Karel - Kaiser, Jozef - Malina, Radomír - Balachninaite, Ona - Baskevicius, A. - Ottaviano, L. - Prezioso, S. - Donarelli, M. - Prochazka, David PY - 2011 TI - A Comparative Study of Laser-Ablation of Selected Targets by ns Nd:YAG, fs Yb-KGW and Capillary-Discharge Based XUV Lasers for Laser-Induced Breakdown Spectroscopy KW - LIBS KW - Nd:YAG KW - Yb-KGW KW - Capillary-Discharge Based XUV laser N2 - A pilot study devoted to comparison of ablation crater formation on selected samples by 3 different laser sources: Yb-KGW laser with 1030 nm and pulse duration 350 fs, XUV laser emitting at 46.9 nm laser pulses with a duration of 1.7 ns and commonly used Nd:YAG laser with fundamental wavelength 1064 nm and higher harmonics, and typical pulse duration of 4.5 ns. Lasers sources were used to create craters into Cu, Fe, Zn, Sn, Pb, Si and brass sheets. The irradiance of the target with different lasers was kept constant, when it was possible. Different counts of pulses to observe the depth, shape and size of ablation craters were used. The feasibility of these LA sources for LIBS application will be discussed. ER -
KRAJCAROVÁ, Lucie, Aleš HRDLIČKA, Karel NOVOTNÝ, Jozef KAISER, Radomír MALINA, Ona BALACHNINAITE, A. BASKEVICIUS, L. OTTAVIANO, S. PREZIOSO, M. DONARELLI a David PROCHAZKA. A Comparative Study of Laser-Ablation of Selected Targets by ns Nd:YAG, fs Yb-KGW and Capillary-Discharge Based XUV Lasers for Laser-Induced Breakdown Spectroscopy. In \textit{EMSLIBS 2011}. 2011.
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