Publications

Vladimir I. Mazhukin, Vadim V. Nosov, Peter Berger, Gert Callies, and Henrik Schittenhelm. Mathematical formulation and analysis of nonequilibrium heating of metals. 15th IMACS World Congress on Scientific Computation, Modelling and Applied Mathematics, (3: Computational physics, chemistry and biology):271-276, Wissenschaft-&-Technik-Verlag, Berlin, 1997. [PUMA: myown Simulation Laser 2-TemperatureModel from:peterberger]

B. Sai. Simulation der Einkopplung und Ausbreitung von Laserstrahlung in Carbonfasergelegen und CFK. IFSW17-05January 2017. [PUMA: MicroMaterialProcessing Studienarbeit Freitag,Christian Simulation Laser from:florianfetzer]

X. Wang. Simulationen von Glasfasern mit photonischer Bandlücke. IFSW12-07April 2012. [PUMA: Studienarbeit Simulation Laser from:florianfetzer LaserDevelopment Vogel,MoritzM.]

N. Tritschler. Experimentelle und theoretische Untersuchung des Kavitationsphänomens beim Laserstrahlschweißen. IFSW18-01June 2018. [PUMA: Studienarbeit Simulation Laser from:florianfetzer Fetzer,Florian MacroMaterialProcessing]

S. Lebsanft. Simulation des Einkopplungsverhaltens beim Laserumschmelzen mit dem FEM-Programm FIDAP. IFSW92-51December 1992. [PUMA: Melting Simulation Laser Shen,Jialin from:florianfetzer ProcessDevelopment Diplomarbeit]

M. Danke. Schweißen mit Beam-Combining ; -Simulation und Experiment. IFSW92-28July 1992. [PUMA: Beck,Markus Welding Simulation Laser from:florianfetzer ProcessDevelopment Diplomarbeit]

A. Kessler. Entwicklung eines Simulationsprogrammes zum Laserabtragen. IFSW91-40September 1991. [PUMA: Studienarbeit Meiners,Eckhard Simulation Laser from:florianfetzer ProcessDevelopment Ablation]

Markus Kern. Simulation der Absorption polarisierter Laserstrahlung beim Lasertiefschweißen. IFSW93-09March 1993. [PUMA: Studienarbeit Polarization Beck,Markus Welding Simulation Laser from:florianfetzer ProcessDevelopment]

Christoph Röcker. Thermo-optische Simulation und Entwicklung einer Heizung für die Frequenzkonversion von UKP Lasern mit Ausgagnsleistungen im kW Bereich. IFSW16-21July 2016. [PUMA: Negel,Jan-Philipp Simulation Laser from:florianfetzer LaserDevelopment Masterarbeit]

M. Slodycz. OpenFoam-Modell zur Vorhersage der Einschweißtiefe beim Laserstrahlschweißen. IFSW16-14April 2016. [PUMA: Studienarbeit Simulation Laser from:florianfetzer Fetzer,Florian MacroMaterialProcessing]

P. Steinle. Simulation von Laser-Materie-Wechselwirkung mit Doppelpulsen. IFSW17-32June 2017. [PUMA: MicroMaterialProcessing Studienarbeit Förster,Daniel Simulation Laser from:florianfetzer]

Haoyue Hu, Peter Eberhard, Florian Fetzer, and Peter Berger. Towards multiphysics simulation of deep penetration laser welding using smoothed particle hydrodynamics. In M. Papadrakakis, V. Papadopoulos, G. Stefanou, and V. Plevris (Eds.), VII European Congress on Computational Methods in Applied Sciences and Engineering - Eccomas Proceedia, (2405):8196-8206, January 2016. [PUMA: Laser Welding from:peterberger myown Simulation]

Haoyue Hu, Peter Eberhard, Florian Fetzer, and Peter Berger. Towards multiphysics simulation of deep penetration laser welding using smoothed particle hydrodynamics. VII European Congress on Computational Methods in Applied Sciences and Engineering, January 2016. [PUMA: Laser Welding from:peterberger myown Simulation]

Daniel Johannes Förster, Stefan Scharring, Johannes Roth, and Hans-Albert Eckel. Molecular Dynamics Simulations of Laser Induced Ablation for Micro Propulsion. High Performance Computing in Science and Engineering ‘14, 139--152, Springer, 2015. [PUMA: dynamics molecular from:djfoerster laser myown simulation ultrafast ablation]

Stefan Scharring, Daniel Johannes Förster, Hans-Albert Eckel, Johannes Roth, and Mikhail Povarnitsyn. Open Access Tools for the Simulation of Ultrashort-Pulse Laser Ablation. Conference-Proceedings-Teilnehmer-CD, 2014. [PUMA: dynamics molecular from:djfoerster laser myown hydrodynamic simulation ablation]

Florian Fetzer, Peter Stritt, Peter Berger, Rudolf Weber, and Thomas Graf. Fast numerical method to predict the depth of laser welding. Journal of Laser Applications, (29)2:022012, 2017. [PUMA: Laser Modelling Peer Simulation Welding from:peterberger myown]

Karin Heller, Steffen Kessler, Friedhelm Dorsch, Peter Berger, and Thomas Graf. 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 from:peterberger myown peer]

Christian Freitag, Rudolf Weber, and Thomas Graf. Polarization dependence of laser interaction with carbon fibers and CFRP. Optics Express, (22)2:1474-1479, 2014. [PUMA: Laser LaserMatterInteraction Modelling Simulation from:peterberger myown]

Xiangzhong Jin, Peter Berger, and Thomas Graf. 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 from:peterberger myown]

R. Klieber, Andreas Michalowski, R. Neuhaus, and D. Suter. Nuclear quadrupole resonance of an electronically excited statefrom high-resolution hole-burning spectroscopy. Physical Review B, (67):184103-1 - 184103-6, 2003. [PUMA: Modelling Laser Diagnostics LaserMatterInteraction from:peterberger Peer Simulation]