The progress of microhole formation during laser percussion drilling of steel observed by highspeed synchrotron x-ray imaging. 2023. [PUMA: myown ablation diagnostics x-ray micromaterialprocessing nondestructive ultrashortpulse stainlesssteel drilling processmonitoring] URL
Exceeding the Limits in Laser Materials Processing by Bridging Additive and Subtractive Manufacturing with Continuous Wave and Ultrashort Pulsed Lasers - Manufacturing of Parts with Undercuts. 2024. [PUMA: myown ablation additivemanufacturing micromaterialprocessing ultrashort selectivelasermeltingslm macromaterialprocessing pulse processdevelopment] URL
Unveiling laser percussion drilling in metals with ultrashort pulses: insights from high-speed synchrotron x-ray imaging on microhole formation and side channel phenomena. In Rainer Kling, Wilhelm Pfleging, and Koji Sugioka (Eds.), 2024. [PUMA: myown ablation x-ray ultrashort nondestructive drilling diagnostics micromaterialprocessing pulse stainlesssteel processmonitoring] URL
Model for designing process strategies in ultrafast laser micromachining at high average powers. Materials & Design, (242)113007Elsevier BV, 2024. [PUMA: ifsw myown ablation peer] URL
Adjusting the microstructure of additively manufactured parts with tailored temperature fields by the combination of powder bed fusion with cw-laser and ablation with ultrashort laser pulses. In Bo Gu, and Hongqiang Chen (Eds.), SPIE, 2024. [PUMA: Heat-dissipatingStructures myown PBF-LB/M Ablation Solidification Simulation AdditiveManufacturing AlSi10Mg UltrashortPulse Microstructure]
Adjusting the microstructure of additively manufactured parts with tailored temperature fields by the combination of powder bed fusion with cw-laser and ablation with ultrashort laser pulses. In Bo Gu, and Hongqiang Chen (Eds.), Laser 3D Manufacturing XI, (12876)SPIE, March 2024. [PUMA: Heat-dissipatingStructures myown Heat-dissipatinStructures PBF-LB/M Heat-dissipating Ablation Solidification USP with Simulation Additive AdditiveManufacturing of AlSi10Mg field structures UltrashortPulse manufacturing Microstructure temperature] URL
The progress of microhole formation during laser percussion drilling of steel observed by highspeed synchrotron x-ray imaging. Lasers in Manufacturing Conference 2023, 2023. [PUMA: myown ablation x-ray nondestructive ultrashortpulse drilling diagnostics micromaterialprocessing stainlesssteel processmonitoring] URL
Unveiling laser percussion drilling in metals with ultrashort pulses: insights from high-speed synchrotron x-ray imaging on microhole formation and side channel phenomena. In Rainer Kling, Wilhelm Pfleging, and Koji Sugioka (Eds.), Laser-based Micro- and Nanoprocessing XVIII, (12873)1287309-1SPIE, March 2024. [PUMA: Drilling myown Diagnostics Ablation MicroMaterialProcessing ProcessMonitoring StainlessSteel UltrashortPulse NonDestructive X-ray] URL
Exceeding the Limits in Laser Materials Processing by Bridging Additive and Subtractive Manufacturing with Continuous Wave and Ultrashort Pulsed Lasers - Manufacturing of Parts with Undercuts. Laser 3D Manufacturing XI, (12876)SPIE, March 2024. [PUMA: myown ProcessDevelopment SelectiveLaserMelting Ablation MicroMaterialProcessing SLM AdditiveManufacturing UltrashortPulse MacroMaterialProcessing] URL
Enhanced Scaling of Material Removal Rate with High Surface Quality Through Combined Laser Processes. Lasers in Manufacturing and Materials Processing, Dec 22, 2023. [PUMA: myown peer Closed-Loop Laser Polishing Ablation] URL
Taking the precision of powder bed fusion to the next level - with in-situ laser ablation. 2021. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse drilling] URL
Increasing the precision of Laser-Based Powder Bed Fusion by process combination with in situ laser ablation. 12th CIRP conference on Photonic Technologies (LANE), September 2022. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse]
Combining LPBF and ultrafast laser processing to produce parts with deep microstructures. 12th CIRP conference on Photonic Technologies (LANE), September 2022. [PUMA: myown from:manuelhenn ablation additivemanufacturing micromaterialprocessing ultrashortpulse]
Tribological system for cold sheet metal forming based on volatile lubricants and laser structured surfaces. Dry Metal Forming Open Access Journal, (6)2020. [PUMA: Drilling myown Scanner Amplifier Ablation ThindiskLaser MicroMaterialProcessing from:manuelhenn Laser sys:relevant UltrashortPulse] URL
Friction and Wear Behavior of Deep Drawing Tools Using Volatile Lubricants Injected Through Laser-Drilled Micro-Holes. JOM, (74)3:826-836, December 2021. [PUMA: Drilling myown Scanner Amplifier Ablation ThindiskLaser MicroMaterialProcessing from:manuelhenn peer Laser UltrashortPulse] URL
Taking powder bed fusion precision to the next level with in-situ laser ablation. Laser Systems Europe, (Autumn 2021)October 2021. [PUMA: myown E-Mobility Additive Manufacturing from:mbuser Ablation Ultrafast] URL
Development of high-power ultrafast lasers: Quo Vadis. In W. Andrew Clarkson, and Ramesh K. Shori (Eds.), Solid State Lasers XXX: Technology and Devices, SPIE, March 2021. [PUMA: ThirdHarmonicGeneration myown SecondHarmonicGeneration from:marwanabdou UltrashortPulse ThinDiskLaser Silicon MultipassAmplifier Diamond Ablation] URL
High-power ultrafast thin-disk multipass amplifiers for efficient laser-based manufacturing. Advanced Optical technolgies, (10)4-5:285-295, October 2021. [PUMA: myown from:marwanabdou UltrashortPulse ThinDiskLaser Silicon MultipassAmplifier Diamond Ablation] URL
Process limits for percussion drilling of stainless steel with ultrashort laser pulses at high average powers. Applied Physics A, (128)35:9, 2022. [PUMA: ablation drilling from:ac120458 myown peer ultrashortpulse] URL
Scaling the throughput of high-quality silicon laser micromachining using a 1-kW sub-picosecond laser. Proceedings of the Lasers in Manufacturing Conference 2021, 2021. [PUMA: myown silicon ablation from:danielholder]
Efficient and high-throughput ablation of platinum using high-repetition rate radially and azimuthally polarized sub-picosecond laser pulses. Opt. Express, (29)13:19551--19565, OSA, June 2021. [PUMA: myown peer Laser UltrashortPulse MultipassAmplifier RadialPolarization Ablation from:andreloescher] URL
Dry Metal Forming Using Volatile Lubricants Injected into the Forming Tool Through Flow-Optimized, Laser-Drilled Microholes. JOM, (72)7:2517--2524, Jul 1, 2020. [PUMA: MicroMaterialProcessing Drilling myown from:manuelhenn Peer UltrashortPulse ProcessDevelopment Steel Ablation] URL
Image processing based detection of the fibre orientation during depth-controlled laser ablation of CFRP monitored by optical coherence tomography. Materials & Design, (203):109567, Elsevier BV, May 2021. [PUMA: myown ablation peer from:danielholder OCT CFRP] URL
Scan path strategy for laser processing of fragmented geometries. Optics and Lasers in Engineering, (138)2021. [PUMA: Ablation Laser Scanner from:mbuser myown peer] URL
High-precision laser ablation using OCT closed-loop control. Laser Applications in Microelectronic and Optoelectronic Manufacturing (LAMOM), (XXV)1126710:1-10, March 2020. [PUMA: steel myown ablation aluminum from:danielholder cfrp oct]
High-quality net shape geometries from additively manufactured parts using closed-loop controlled ablation with ultrashort laser pulses. Advanced Optical Technologies, (9):101-110, March 2020. [PUMA: myown ablation peer from:danielholder oct]
Untersuchung der Abtragmechnismen von polymerbeschichtetem Metall am Beispiel von isolierten Kupferleitern in Hochleistungsmotoren. IFSW18-10February 2018. [PUMA: MicroMaterialProcessing Neugebauer,C. Trumpf_GmbH_&_Co.KG Faas,Sebastian Laser from:julianholland Ablation Masterarbeit]
Abtrag von Isolationslack von Kupfer mit 10,6µm Laserstrahlung. IFSW18-02June 2018. [PUMA: MicroMaterialProcessing Robert_Bosch_GmbH Faas,Sebastian Laser from:julianholland Ablation Masterarbeit Gauch,Roland]
Atomistic simulation of ultra-short pulsed laser ablation of metals with single and double pulses: An investigation of the re-deposition phenomenon. Applied Surface Science, (537):147775, Elsevier BV, September 2020. [PUMA: ablation from:thomas_graf laser myown peer] URL
Verfahren zur Festlegung einer Bewegungsbahn eines additiv oder subtraktiv wirkenden Werkzeugs, Verfahren zur abtragenden Bearbeitung eines Werkstücks mittels Laserstrahl sowie Anlage hierfür. DE 10 2019 105 079 A1Universität Stuttgart, 2020. [PUMA: myown ablation laser from:mbuser systemsengineering]
Productivity optimization of scanner based laser ablation processes with adaptive scan paths. Proceedings of the Lasers in Manufacturing Conference 2019, 2019. [PUMA: myown Laser from:mbuser SystemsEngineering Ablation]
OCT-controlled generation of complex geometries on stainless steel using ultra-short laser pulses. 2019. [PUMA: steel myown ablation from:danielholder OCT]
Kilowatt Average Power Short-Pulse Laser Processing of CFRP - Quality Challenges. Lasers in Manufacturing 2015, 2015. [PUMA: MicroMaterialProcessing Drilling Welding Laser MacroMaterialProcessing Ablation Cutting from:peterberger]
Influencing the Melt Pool Dynamics with Short Pulses. Lasers in Manufacturing 2009, AT-Fachverlag GmbH, Stuttgart, 2009. [PUMA: MicroMaterialProcessing Drilling Welding Laser EnergyCoupling MacroMaterialProcessing Ablation Cutting from:peterberger]
Strategies to improve quality and productivity of structuring metals with ultra-short laser pulses. Lasers in Manufacturing 2005, 625-628, AT-Fachverlag GmbH, Stuttgart, 2005. [PUMA: MicroMaterialProcessing Laser Ablation Structuring from:peterberger]
Continuous multi-phase modeling of laser ablation with short pulses. Lasers in Manufacturing 2003, 357-362, AT-Fachverlag GmbH, Stuttgart, 2003. [PUMA: Drilling Simulation Laser Modeling Ablation from:peterberger]
The role of plasma in ablation of materials by ultrashort laser pulses. Lasers in Manufacturing 2001, 273, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: MicroMaterialProcessing Laser Ablation from:peterberger]
Thrust Noise Minimization in Long-term Laser Ablation of Propellant Material in the Nanosecond and Picosecond Regime. Optical Engineering, (56)1:011010, Society of Photo-Optical Instrumentation Engineers (SPIE), January 2017. [PUMA: micro ablation laser peer propulsion from:peterberger] URL
Gasphaseneinflüsse beim Abtragen und Bohren mit ultrakurz gepulster Laserstrahlung. In Thomas Graf (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 200, Herbert Utz Verlag, München, 2010. [PUMA: Ablation Drilling Laser from:peterberger]
Grundlagen und Verfahrenstechnik des reaktiven Laserpräzisionsabtragens von Stahl. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 138, Herbert Utz Verlag, München, 2002. [PUMA: Laser Ablation from:peterberger]
Diagnostik des laserinduzierten Plasmas beim Abtragen und Schweißen. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 141, Herbert Utz Verlag, München, 2000. [PUMA: Plasma Welding Laser Ablation from:peterberger]
Modellierung von qualitäts- und effektivitätsbestimmenden Mechanismen beim Laserabtragen. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 119, Teubner Verlag, Stuttgart, 1999. [PUMA: Laser Ablation from:peterberger]
Abtragen metallischer und keramischer Werkstoffe mit Excimerlasern. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 192, Teubner Verlag, Stuttgart, 1994. [PUMA: Ablation Laser from:peterberger]
Abtragende Bearbeitung von Keramiken und Metallen mit gepulstem Nd:YAG-Laser als zweistufiger Prozeß. In Helmut Hügel (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 120, Teubner Verlag, Stuttgart, 1995. [PUMA: Laser Ablation from:peterberger]
Laser ablation of iron by ultrashort laser pulses. Thin Solid Films, (453-454):496-500, April 2004. [PUMA: myown Simulation Laser Modelling Ablation from:peterberger]
Laser ablation of Ni by ultrashort pulses: molecular dynamics simulation. Applied Surface Science, (186):369-373, 2002. [PUMA: Simulation Laser Modelling Ablation from:peterberger]
Hochpräziser Materialabtrag von rotationssymmetrischen CFK Bauteilen. IFSW16-08March 2016. [PUMA: Laser from:florianfetzer Wiedenmann,Margit ProcessDevelopment Ablation Masterarbeit]
Laserbearbeitung Carbonfaser verstärkter Kunstoffe mit einem 2 µm-Faserlaser. IFSW17-07January 2017. [PUMA: MicroMaterialProcessing Freitag,Christian Bachelorarbeit Laser from:florianfetzer Ablation CFRP]
Zeitabhängige Messung der Reflexion während des Abtragprozesses. IFSW17-02July 2017. [PUMA: MicroMaterialProcessing Förster,Daniel Laser from:florianfetzer Ablation Masterarbeit]
Untersuchung der Bearbeitungsparameter beim Siliziumabtrag mit ultrakurz gepulster Laserstrahlung bei hohen mittleren Leistungen. IFSW18-33November 2018. [PUMA: MicroMaterialProcessing Studienarbeit Holder,D. Laser from:florianfetzer Ablation]