[WEBINAR] Micro processing yield improvement with MPLC based beam shaping
Overview
Title: Micro-processing yield improvement with MPLC-based beam shaping
Duration: 60 minutes
Webinar content
- Introduction to micro-processing challenges to be addressed with beam-shaping
– presented by John Lopez, CNRS – CELIA laboratory - High quality beam shaping with Multi-Plane Light Conversion including beam splitting and line top-hat generation
– presented by Cailabs - Yield improvement on engraving application within an industrial femtosecond machine thanks to a 1×9 beam splitting
– presented by LASEA - Yield improvement on Laser Induced Periodic Surface Structure (LIPSS) generation application thanks to a Line Top-Hat of 1/20 aspect ratio
– presented by ALPhANOV
Speakers
Gwenn Pallier – Project & Product Manager at Cailabs
Gwenn Pallier holds a Masters’s degree in optical engineering from the Institute of Optics (Paris, France). As a project and product manager at Cailabs, she brings her expertise to the development and commercialization of innovative optical solutions, that optimize the quality and performance of laser machining processes.
John Lopez – Senior research engineer at the French CNRS – CELIA laboratory (University of Bordeaux)
John Lopez has a Ph.D. on laser ablation of polymers (University of Bordeaux).
He has been a senior research engineer at the French CNRS since 2001 and he is working at the CELIA laboratory (University of Bordeaux).
Jérôme Patars – R&D Engineer at LASEA
Jérôme Patars joined LASEA in 2015, as part of the Optical devices & Metrology Unit. He studied Physics at the University of Liège and got graduated of a Master in spatial sciences in 2013.
Girolamo Mincuzzi – Manager of the “Microscale laser processing group” at Alphanov
Physics graduated in Bari University (Italy), fellow at the National Institute of Optics (Naples, Italy) as designer of high power, ceramic, lasers, he got his Ph.D. at Rome University studying laser material interaction for photovoltaic applications.