Publications

Michael Jarwitz, and Andreas Michalowski. Prediction of process constraints using a physics-informed hybrid model with additional output constraints at the example of the threshold of deep-penetration laser welding. 2024. [PUMA: Laser Modeling myown welding]

Michael Jarwitz, and Andreas Michalowski. Prediction of process constraints using a physics-informed hybrid model with additional output constraints at the example of the threshold of deep-penetration laser welding. 2024. [PUMA: myown welding Laser Modeling]

Michael Jarwitz, and Andreas Michalowski. Prediction of process constraints using a physics-informed hybrid model with additional output constraints at the example of the threshold of deep-penetration laser welding. Stuttgart Conference on Automotive Production (SCAP), 2025. [PUMA: Modeling laser myown welding] URL

Michael Jarwitz, and Andreas Michalowski. Prediction of process constraints using a physics-informed hybrid model with additional output constraints at the example of the threshold of deep-penetration laser welding. Stuttgart Conference on Automotive Production (SCAP), 2025. [PUMA: myown welding laser Modeling] URL

Michael Jarwitz, and Andreas Michalowski. Application of a physics-informed hybrid model with additional output constraints for the prediction of the threshold of deep-penetration laser welding. 2024. [PUMA: Modeling laser myown peer welding]

Michael Jarwitz, and Andreas Michalowski. Application of a physics-informed hybrid model with additional output constraints for the prediction of the threshold of deep-penetration laser welding. 2024. [PUMA: myown welding laser peer Modeling]

Michael Jarwitz, and Andreas Michalowski. Application of a physics-informed hybrid model with additional output constraints for the prediction of the threshold of deep-penetration laser welding. Journal of Laser Applications, (37)1February 2025. [PUMA: Modeling laser myown peer welding] URL

Michael Jarwitz, and Andreas Michalowski. Application of a physics-informed hybrid model with additional output constraints for the prediction of the threshold of deep-penetration laser welding. Journal of Laser Applications, (37)1February 2025. [PUMA: myown welding laser peer Modeling] URL

Michael Jarwitz, and Andreas Michalowski. Application of output constraints to a physics-informed hybrid model for the prediction of the threshold of deep-penetration laser welding. 2024. [PUMA: Modeling laser myown welding]

Michael Jarwitz, and Andreas Michalowski. Application of output constraints to a physics-informed hybrid model for the prediction of the threshold of deep-penetration laser welding. 2024. [PUMA: myown welding laser Modeling]

Michael Jarwitz, and Andreas Michalowski. Application of output constraints to a physics-informed hybrid model for the prediction of the threshold of deep-penetration laser welding. Procedia CIRP, (124):789–792, Elsevier BV, 2024. [PUMA: Modeling laser myown peer welding] URL

Michael Jarwitz, and Andreas Michalowski. Application of output constraints to a physics-informed hybrid model for the prediction of the threshold of deep-penetration laser welding. Procedia CIRP, (124):789–792, Elsevier BV, 2024. [PUMA: myown welding laser peer Modeling] URL

Michael Jarwitz, and Andreas Michalowski. Hybrid model for the threshold of deep-penetration laser welding. Proceedings of the Lasers in Manufacturing Conference 2023, 2023. [PUMA: Modeling laser myown welding]

Anne Feuer, Rudolf Weber, David Brinkmeier, and Thomas Graf. Quality Aspects in Percussion Drilling with Ultrashort Laser Pulses. In Anne Feuer (Eds.), 2021. [PUMA: drilling laser micromaterialprocessing modeling myown steel ultrashortpulse]

Anne Feuer, Rudolf Weber, David Brinkmeier, and Thomas Graf. Quality Aspects in Percussion Drilling with Ultrashort Laser Pulses. In Anne Feuer (Eds.), 2021. [PUMA: steel myown modeling laser micromaterialprocessing ultrashortpulse from:annefeuer drilling]

Anne Feuer, Rudolf Weber, and Thomas Graf. Fluence dependence of the edge quality of microhole exits for percussion drilling with ultrashort laser pulses. In Anne Feuer (Eds.), Proceedings of the Lasers in Manufacturing Conference 2021, German Scientific Laser Society (WLT e.V.), 2021. [PUMA: drilling laser micromaterialprocessing modeling myown steel ultrashortpulse]

Anne Feuer, Rudolf Weber, and Thomas Graf. Fluence dependence of the edge quality of microhole exits for percussion drilling with ultrashort laser pulses. In Anne Feuer (Eds.), Proceedings of the Lasers in Manufacturing Conference 2021, WLT e.V., 2021. [PUMA: steel myown modeling laser micromaterialprocessing ultrashortpulse from:annefeuer drilling]

Anne Feuer, Rudolf Weber, Ronny Feuer, David Brinkmeier, and Thomas Graf. High‑quality percussion drilling with ultrashort laser pulses. In Anne Feuer (Eds.), Appl Phys A (Applied Physics A), (127:665)9:1-9, September 2021. [PUMA: drilling laser micromaterialprocessing modeling myown peer steel ultrashortpulse] URL

Anne Feuer, Rudolf Weber, Ronny Feuer, David Brinkmeier, and Thomas Graf. High‑quality percussion drilling with ultrashort laser pulses. In Anne Feuer (Eds.), Appl Phys A (Applied Physics A), (127:665)9:1-9, September 2021. [PUMA: steel myown modeling laser micromaterialprocessing ultrashortpulse from:annefeuer drilling] URL

Markus Beck, and Friedrich Dausinger. Modelling of laser deep welding processes. In H. Bergmann (Eds.), European Scientific Laser Workshop on Mathematical Simulation, 201 - 216, Sprechsaal Publishing Group, Coburg, September 1989. [PUMA: Absorption Laser Modeling RayTracing Welding]