Publications

Friedrich Dausinger, Thomas Rudlaff, and Jialin Shen. Einkopplung von CO-Laserstrahlen. Laser und Optoelektronik, (23)1:43, 1991. [PUMA: LaserMatterInteraction Diagnostics Laser from:peterberger]

Friedrich Dausinger, and Jialin Shen. Energy coupling efficiency in laser surface treatment. ISIJ International, (33):925, 1993. [PUMA: LaserMatterInteraction Diagnostics Laser from:peterberger]

Friedrich Dausinger, Markus Beck, Jae H. Lee, Eckhard Meiners, Thomas Rudlaff, and Jialin Shen. Energy Coupling in Surface Treatment Processes. Journal of Laser Applications, (2):17, 1990. [PUMA: LaserMatterInteraction Diagnostics Laser from:peterberger]

George P. Pinho, Henrik Schittenhelm, Walter W. Duley, S. A. Schlueter, Hamid R. Jahani, and Robert E. Mueller. Energy distributions in the laser ablation of metals and polymers. Applied Surface Science, (127):983, 1998. [PUMA: LaserMatterInteraction Diagnostics Laser Ablation from:peterberger]

G. Eisenmann. Entwicklung und Konstruktion eines Aufbaus zur Bestimmung der Momente der Leistungsdichteverteilung mit Hilfe optischer Filter zur Strahldiagnose. IFSW04-12August 2004. [PUMA: Letsch,Andreas Design Diagnostics BeamCharacterisation Laser from:florianfetzer Diplomarbeit]

Sonja Kittel. Erbrobung der Highspeed-Infrarotkamera Thermosensorik CMT M 256 HS für die Beobachtung von Laserschweißprozessen. IFSW05-07April 2005. [PUMA: Studienarbeit Müller-Borhanian,Jürgen Diagnostics Welding Laser from:florianfetzer ProcessDevelopment]

B. Reicherter. Erprobung eigenmagnetischer Volumenkräfte beim Laserstrahlschweißen. IFSW05-08April 2005. [PUMA: Studienarbeit Diagnostics Welding Ambrosy,Günther Laser from:florianfetzer ProcessDevelopment]

R. Nonner. Erprobung eines Echtzeit-Bildverarbeitungssystems für die In-Prozessüberwachung beim Laserstrahlschweißen. IFSW06-19December 2006. [PUMA: Müller-Borhanian,Jürgen Diagnostics Welding Laser from:florianfetzer ProcessDevelopment Diplomarbeit]

D. Roth. Evaluierung verfügbarer Systeme zur zerstörungsfreien Prüfung lasergeschweißter Baugruppen. IFSW06-072006. [PUMA: Diagnostics Welding Laser from:florianfetzer NonDestructive ProcessDevelopment Diplomarbeit Deininger,Christoph]

Henrik Schittenhelm, Gert Callies, Peter Berger, and Helmut Hügel. Experimental investigations of the excimer laser induced interaction zone in terms of interaction mechanisms. (EUROMECH Colloqium 363, Mechanics of Laser Ablation, 23.-26. June 1997). Thermo, (5)2:255, 1998. [PUMA: LaserMatterInteraction Diagnostics Laser Ablation from:peterberger]

M. Metsch. Farbschlierenoptische Methode zur Untersuchung gasdynamischer Effekte beim Laserschneiden. IFSW06-01August 2005. [PUMA: Diagnostics Laser from:florianfetzer Berger,Peter ProcessDevelopment Diplomarbeit Cutting]

Rudolf Weber, Meiko Boley, Frieder Beirow, Marwan Abdou Ahmed, and Thomas Graf. Gleichzeitiges Online Vermessen von Laserstrahl und Werkstück zum Regeln der richtigen Fokuslage. May 2019. [PUMA: myown from:ruediweber diagnostics Laser control]

Michael Jarwitz, Jens Johannsen, Peter Stritt, Rudolf Weber, and Thomas Graf. Heat transfer and heat conduction during laser welding of Ni-sheets to Ni-foam. Lasers in Manufacturing 2015, 2015. [PUMA: LaserMatterInteraction Diagnostics Welding Laser MacroMaterialProcessing from:peterberger]

Meiko Boley, Florian Fetzer, Rudolf Weber, and Thomas Graf. High-speed x-ray imaging system for the investigation of laser welding processes. Journal of Laser Applications, (31)4:042004, Laser Institute of America, 2019. [PUMA: diagnostics laser x-ray from:florianfetzer laserwelding]

Daniel Weller, Peter Stritt, Christian Hagenlocher, Rudolf Weber, Thomas Graf, Jörg Simon, Cyrille Bezençon, and C. Bassi. Hot Crack formation when welding aluminum alloys at close-edge position with remote technology. Lasers in Manufacturing 2015, 2015. [PUMA: LaserMatterInteraction Diagnostics Welding Laser MacroMaterialProcessing from:peterberger]

David Traunecker, Michael Jarwitz, Thomas Graf, and Andreas Michalowski. In-process determination of the local hardness during laser beam welding of steel. 2023. [PUMA: steel hardening myown ybyag welding diagnostics laser processmonitoring pyrometer]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. Proceedings of the Lasers in Manufacturing Conference 2019, 2019. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. Proceedings of the 37th International Congress on Applications of Lasers & Electro-Optics (ICALEO 2018), Laser Institute of America, October 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing Steelsend:unibiblio from:michaeljarwitz] URL

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping Steel from:michaeljarwitz]

Henrik Schittenhelm, Gert Callies, Peter Berger, and Helmut Hügel. Investigations of extinction coefficients during excimer laser ablation and their interpretation in terms of Rayleigh scattering. Journal of Physics D: Applied Physics, (29):1564, 1996. [PUMA: LaserMatterInteraction Diagnostics Peer Laser from:peterberger]