Multi-Beam Processing with Individually Addressable Beamlets: Calibration & Data Processing

Multibeam processing with ultra-short pulsed lasers attracts increasing attention as upscaling technology for laser material processing. While static multibeam approaches for periodic patterns are already entering industry applications, multibeam solutions for the processing of arbitrary geometries...

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Veröffentlicht in:	Journal of laser micro nanoengineering 2021-10, Vol.16 (2), p.100-108
Hauptverfasser:	Meyer, Alexander, Zuric, Milena
Format:	Artikel
Sprache:	eng
Schlagworte:	Ablation Algorithms Beam switching Beams (structural) Calibration Control systems Data processing Digital integrated circuits Field programmable gate arrays Galvanometers Industrial applications Lasers Modulators Molding (process) Optics Productivity Real time Scanners Software Technology application Ultrashort pulsed lasers
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container_title	Journal of laser micro nanoengineering
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creator	Meyer, Alexander Zuric, Milena
description	Multibeam processing with ultra-short pulsed lasers attracts increasing attention as upscaling technology for laser material processing. While static multibeam approaches for periodic patterns are already entering industry applications, multibeam solutions for the processing of arbitrary geometries are still missing. The demand for high speed, high volume structuring of large surfaces exists, e.g. for molding applications, electronics and photovoltaic, and pushes the development of high-power ultrashort pulsed lasers and the corresponding beam handling systems. To gain the flexibility to process arbitrary structures with a multibeam setup, a flexible, individual control of each beam in the multibeam bundle needs to be realized. This requires significant control of the different modulators typically combined with a galvanometer-scanner based processing setup. A concept for such an adapted processing system is discussed, incorporating acusto-optic modulators for flexible beam switching and a Field Programmable Gate Array for real-time control. A concept to compensate optical aberrations is introduced, and the required algorithms to generate the control commands for the galvanometer scanner and acusto-optic modulators from the provided structure is demonstrated. Finally, the implementation of the real-time scanner-position based switching of the acusto-optic modulators is presented. Keywords: multibeam, ultra-short pulsed laser, kilo-watt laser, micro structuring, control system, galvanometer scanner, scanfield calibration, FPGA, system technology
doi_str_mv	10.2961/jlmn.2021.02.2005
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A concept to compensate optical aberrations is introduced, and the required algorithms to generate the control commands for the galvanometer scanner and acusto-optic modulators from the provided structure is demonstrated. Finally, the implementation of the real-time scanner-position based switching of the acusto-optic modulators is presented. 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A concept to compensate optical aberrations is introduced, and the required algorithms to generate the control commands for the galvanometer scanner and acusto-optic modulators from the provided structure is demonstrated. Finally, the implementation of the real-time scanner-position based switching of the acusto-optic modulators is presented. 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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Ablation Algorithms Beam switching Beams (structural) Calibration Control systems Data processing Digital integrated circuits Field programmable gate arrays Galvanometers Industrial applications Lasers Modulators Molding (process) Optics Productivity Real time Scanners Software Technology application Ultrashort pulsed lasers
title	Multi-Beam Processing with Individually Addressable Beamlets: Calibration & Data Processing
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