@inproceedings{FranzRothRungetal.2021, author = {Franz, Daniel and Roth, Gian-Luca and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Superimposed beam deflection using acousto-optical deflectors in combination with a galvanometer scanner}, series = {Lasers in Manufacturing - LiM 2021}, booktitle = {Lasers in Manufacturing - LiM 2021}, year = {2021}, subject = {Galvanometer}, language = {en} } @article{SchwarzRothRungetal.2020, author = {Schwarz, Simon and Roth, Gian-Luca and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Fabrication and evaluation of negative axicons for ultrashort pulsed laser applications}, series = {Optics Express}, volume = {Optics Express}, journal = {Optics Express}, number = {28}, pages = {26207 -- 26217}, year = {2020}, subject = {Ultrakurzzeitlaser}, language = {en} } @inproceedings{SchwarzRungEsenetal.2020, author = {Schwarz, Simon and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Manufacturing of optical elements by non-contact laser processing}, series = {Seventh European Seminar on Precision Optics Manufacturing, Proceedings}, booktitle = {Seventh European Seminar on Precision Optics Manufacturing, Proceedings}, number = {11478}, year = {2020}, subject = {Laserbearbeitung}, language = {en} } @article{ZettlRungEsenetal.2021, author = {Zettl, Julian and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Tangential Laser Turning of Fused Silica Using Ultra-short Laser Pulses}, series = {Journal of Laser Micro/Nanoengineering}, volume = {16}, journal = {Journal of Laser Micro/Nanoengineering}, number = {1}, doi = {10.2961/jlmn.2021.01.2008}, pages = {42 -- 46}, year = {2021}, abstract = {Laser turning with ultra-short laser pulses provides the possibility of manufacturing rotationally symmetric geometries, even of hard to machine materials as fused silica, down to a micrometer scale. In this laser micro machining approach, the laser beam is oriented perpendicularly to the rotational axis and tangentially to the material, whereas the target geometry is realized by moving the constantly rotating specimen according to the specified geometry under the focused laser spot. Due to the fric-tion-less laser ablation it is possible to realize a turning process in fused silica without the use of a contacting tool and therefore without causing mechanical tensions in the work piece. The processing head focuses the laser to a calculated spot size of 18 μm in diameter and the applied processing gas pressure assists in removing the ablated material. In this study, femto-second laser turning of fused silica with a diameter of 3.7 mm is investigated. The influence of the applied pulse energy is stated and the use of a trepanning optic during the turning process is characterized. Furthermore, compre-hensive parameter studies in order to optimize roughness and to find the maximum achievable abla-tion rate are shown. Limited by the mechanical speed of the rotational axis, the highest feasible abla-tion rate is 19.5 mm³/min. A roughness of Ra 0.65 μm are demonstrated.}, subject = {Laserbearbeitung}, language = {en} } @article{SchleierAdelmannEsenetal.2021, author = {Schleier, Max and Adelmann, Benedikt and Esen, Cemal and Glatzel, Uwe and Hellmann, Ralf}, title = {Development and evaluation of an image processing algorithm for monitoring fiber laser fusion cutting by a high-speed camera}, series = {Journal of Laser Applications}, volume = {2021}, journal = {Journal of Laser Applications}, number = {33}, doi = {10.2351/7.0000391}, pages = {032004 -- 032004}, year = {2021}, subject = {Faserlaser}, language = {en} } @inproceedings{SchwarzRungEsenetal.2020, author = {Schwarz, Simon and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {UKP-Prozess mit anschließendem CO2-Laserpolieren zur Fertigung komplexer Optiken}, series = {10. Workshop Laserbearbeitung von Glaswerkstoffen}, booktitle = {10. Workshop Laserbearbeitung von Glaswerkstoffen}, year = {2020}, subject = {Linse}, language = {en} } @article{SchwarzGoetzendorferRungetal.2021, author = {Schwarz, Simon and G{\"o}tzendorfer, Babette and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Compact Beam Homogenizer Module with Laser-Fabricated Lens-Arrays}, series = {applied sciences}, volume = {2021}, journal = {applied sciences}, number = {11}, pages = {1018 -- 1018}, year = {2021}, subject = {Femtosekundenlaser}, language = {en} } @article{SchwarzRungEsenetal.2021, author = {Schwarz, Simon and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Enhanced ablation efficiency using GHz bursts in micromachining fused silica}, series = {Optics Letters}, volume = {46}, journal = {Optics Letters}, number = {2}, pages = {282 -- 285}, year = {2021}, subject = {Fr{\"a}sen}, language = {de} } @article{ZettlKlarRungetal.2021, author = {Zettl, Julian and Klar, Maximilian and Rung, Stefan and Esen, Cemal and Hellmann, Ralf}, title = {Laser turning with ultrashort laser pulses}, series = {Journal of Manufacturing Processes}, volume = {2021}, journal = {Journal of Manufacturing Processes}, number = {68}, doi = {10.1016/j.jmapro.2021.06.025}, pages = {1562 -- 1568}, year = {2021}, abstract = {We report on a comprehensive micromachining study of rotationally symmetric parts using femtosecond laser. A laser turning process with tangential impingement of the laser radiation complemented by a trepanning optics is implemented as to accomplish a true laser lathe micromachining approach. With the objective of optimized ablation rate and reduced surface roughness, the influence of pulse energy, feed rate, trepanning diameter and angular beam incidence, respectively, is investigated for processing stellite rods. We find the smallest feasible feature sizes of 8.5 μm in diameter and smoothest surfaces with an arithmetic average of the roughness profile as low as 0.18 μm. The surface roughness, however, appears to be limited by the occurrence of laser induced periodic surface structures provoked by the femtosecond laser radiation. Furthermore, the variation of the fluence in accordance to the incidence on a curved surface is discussed and the heat input into the material is examined through a longitudinal cross section.}, subject = {Ultrakurzer Lichtimpuls}, language = {en} } @article{RothEsenHellmann2019, author = {Roth, Gian-Luca and Esen, Cemal and Hellmann, Ralf}, title = {A New Approach to Seal Polymer Microfluidic Devices Using Ultrashort Laser Pulses}, series = {Journal of Laser Micro/Nanoengineering}, volume = {14}, journal = {Journal of Laser Micro/Nanoengineering}, number = {1}, pages = {49 -- 53}, year = {2019}, abstract = {We report on the joining of two different transparent thermoplastic polymers using infrared femtosecond laser pulses. Solely being based on nonlinear absorption, the developed micro-welding process for cyclo-olefin copolymers and polycarbonate does not require any intermediate absorbing layers or any surface pre-processing of the welding partners. In addition, it circumvents any heat damages at the outer surfaces of the welding partners. Femtosecond laser welding of cyclo-olefin copolymers is improved by increasing the numerical aperture of the focusing setup resulting in a wider and more homogenous welding cross-section. Welding results are classified by shear strength and fracture modes are analyzed using scanning electron microscopy. Furthermore, we demonstrate, to the best of our knowledge, first results of ultrashort pulse laser welding of transparent polycarbonate, one of the most used transparent polymers. In view of an optimized and stable micro-welding process, we study the influence of laser power and focal position on welding results. The application of ultrashort pulse laser welding for Lab-on-chip fabrication technologies is demonstrated by sealing an ultrashort pulse laser ablated microfluidic device based on a transparent polymer substrate.}, subject = {Femtosekundenlaser}, language = {en} }