MSE Master of Science in Engineering

The Swiss engineering master's degree


Jedes Modul umfasst 3 ECTS. Sie wählen insgesamt 10 Module/30 ECTS in den folgenden Modulkategorien:

  • ​​​​12-15 ECTS in Technisch-wissenschaftlichen Modulen (TSM)
    TSM-Module vermitteln Ihnen profilspezifische Fachkompetenz und ergänzen die dezentralen Vertiefungsmodule.
  • 9-12 ECTS in Erweiterten theoretischen Grundlagen (FTP)
    FTP-Module behandeln theoretische Grundlagen wie die höhere Mathematik, Physik, Informationstheorie, Chemie usw. Sie erweitern Ihre abstrakte, wissenschaftliche Tiefe und tragen dazu bei, den für die Innovation wichtigen Bogen zwischen Abstraktion und Anwendung spannen zu können.
  • 6-9 ECTS in Kontextmodulen (CM)
    CM-Module vermitteln Ihnen Zusatzkompetenzen aus Bereichen wie Technologiemanagement, Betriebswirtschaft, Kommunikation, Projektmanagement, Patentrecht, Vertragsrecht usw.

In der Modulbeschreibung (siehe: Herunterladen der vollständigen Modulbeschreibung) finden Sie die kompletten Sprachangaben je Modul, unterteilt in die folgenden Kategorien:

  • Unterricht
  • Dokumentation
  • Prüfung
Laser and laser applications (TSM_Laser)

TSM module “Laser and Laser applications” provides a broad overview about the fascinating field of state-of-the-art Laser technology and its applications in industry, R&D, medicine and communication. The modul provides a comprehensive insight into the Laser and applications market, Laser types and devices, Beam deliveries, Laser machines, Physics of interaction between laser and material, and real industrial application examples presented by experts with industrial background.  Module objective is to increase and enhance the technological competences on laser generation, control, and laser-material interaction.physical/ technological limits and competing technology.

Eintrittskompetenzen

Optics: Basics of wave and geometrical optics; without optics basics during bachelor studies, the EVA "Fundamentals of light" should be visited before visiting further TSM modules.
Physics: Basics for engineers (bachelor niveau)

Lernziele

After successfully completing this course the student:

  • knows the concepts of the most important laser types with their respective advantages and disadvantages and will be informed about future trends.
  • will be skilled to decide between Laser-based technology or other manufacturing technology based on knowledge in technology, efficiency, economical, and ecological reasons
  • knows industrial relevant beam guiding and delivery systems and technologies
  • will be skilled to make decision on suitable laser source and beam delivery depending on application process.
  • thoroughly understands important laser applications and can design the most relevant features of the systems required for them
  • knows the most relevant physical effects which happen during the interaction between laser and material
  • will be skilled to determine processing strategy, basic parameters and supporting technology 
  • knows basics methods of beam diagnostics, process monitoring, and industry 4.0 technology

Modulinhalt

Laser [7 weeks]

  1. Basics [2 wk]
    Repetition of basics, Resonators, Laser modes, etc.
  2. Technical realization of Lasers [3 wk]
    Design concepts of significant laser sources, Pulse generation, Wavelength conversion,
  3. Beam Delivery and Optics [1 wk]
    hard optics, fibers, working head concepts, beam forming, Scanners, fast and ultra-fast optics etc.    
  4. Laser Safety and health protection [1 wk]

 Laser Applications [7 weeks]             

  1. Industrial Laser Applications [4 wk]Market description, Applications (Welding, Cutting, Drilling, Structuring, Hardening, Marking, Additive Manufacturing etc.), Laser – materal interaction, parameters, process properties and limits, laser machine concepts
  2. Lasers in Medicine, Measuring Technology, Communication and Science [2 wk]
    Interferometry, Spectroscopy, Surgery, Ophthalmology, Displays and Communication, Microscopy
  3. Beam and process diagnostics [1 wk]
    Methods of beam analytics and validations, Methods of process monitoring and control, lasers and industry 4.0

Lehr- und Lernmethoden

  • Lectures and self-study
  • Practical and theoretical exercises

Bibliografie

1)      William Silfvast: Laser fundamantals

2)      Rainer Dohlus: Lasertechnik

3)      Helmut Hügel, Thomas Graf: Laser in der Fertigung

4)      Saleh, Teich: Photonics

5)      Fritz Kneubühl: Laser

Vollständige Modulbeschreibung herunterladen

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