Laser ablation of iron by ultrashort laser pulses. Thin Solid Films, (453-454):496-500, April 2004. [PUMA: Ablation Laser Modelling Simulation myown]
Fast numerical method to predict the depth of laser welding. Journal of Laser Applications, (29)2:022012, 2017. [PUMA: Laser Modelling Peer Simulation Welding]
Analytical description of the surface temperature for the characterization of laser welding processes. International Journal of Heat and Mass Transfer, (106):958-969, 2017. [PUMA: Laser Modelling Simulation Welding]
Polarization dependence of laser interaction with carbon fibers and CFRP. Optics Express, (22)2:1474-1479, 2014. [PUMA: Laser LaserMatterInteraction Modelling Simulation]
Laser ablation of Ni by ultrashort pulses: molecular dynamics simulation. Applied Surface Science, (186):369-373, 2002. [PUMA: Ablation Laser Modelling Simulation]
Multiple reflections and Fresnel absorption in an actual 3D keyhole during deep penetration laser welding. Journal of Physics D: Applied Physics, (39):4703, 2006. [PUMA: Laser LaserMatterInteraction Modelling Peer Simulation Welding]
Nuclear quadrupole resonance of an electronically excited statefrom high-resolution hole-burning spectroscopy. Physical Review B, (67):184103-1 - 184103-6, 2003. [PUMA: Diagnostics Laser LaserMatterInteraction Modelling Peer Simulation]
Analytical investigations on geometrical influences on laser drilling. Journal of Physics D: Applied Physics, (34):2918, 2001. [PUMA: Diagnostics Laser LaserMatterInteraction Modelling Peer Simulation]
Shadowgraphic and interferometric investigations on Nd:YAG laser-induced vapor/plasma plumes for different processing wavelengths. Applied Physics, A 69 [Suppl]:505, 1999. [PUMA: Diagnostics Laser LaserMatterInteraction Modelling Simulation]
Modeling of the expansion of laser-evapourated matter in argon, helium and nitrogen and the condensation of clusters. Applied Surface Science, (127):131, 1998. [PUMA: Ablation Laser Modelling Simulation]
Modeling of cluster generation in excimer laser induced plasma/vapour plumes. (EUROMECH Colloqium 363, Mechanics of Laser Ablation, 23.-26. June 1997). Thermo, (5)2:235, 1998. [PUMA: Ablation Laser Modelling Simulation]
Theoretical modelling and experimental investigations of the diode-pumped thin disk Yb:YAG laser. Quantum Electronics, (29)8:697, 1999. [PUMA: Diodepumped Laser Modelling Simulation]
Structuring with excimer lasers-experimental and theoretical investigations on quality and efficiency. Journal of Laser Applications, (10)6:255, 1998. [PUMA: Diagnostics Laser LaserMatterInteraction Modelling Peer Simulation]
An algebraic approach to characterize paraxial optical systems. Applied Optics, (33):3837, 1994. [PUMA: Laser Modelling OpticalElements Simulation]
Studie zur Energieeinkopplung beim Tiefschweißen mit Laserstrahlung. Laser und Optoelektronik, (21)3:80, 1989. [PUMA: Laser Modelling Simulation Welding]
Einfluß der Plasmawolke auf Einkopplung und Prozeßstabilität beim Lasertiefschweißen mit CO2-Lasern. Laser und Optoelektronik, (28)8:72, 1996. [PUMA: Laser Modelling Simulation Welding]
The effect of plasma formation on beam focusing in deep penetration welding with CO2 lasers. Journal of Physics D: Applied Physics, (28):2430, 1995. [PUMA: Laser Modelling Simulation Welding]