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micro-module

Laser Principles and Applications

Laser Principles and Applications

Ignite the laser emission and light up the pathways for its emerging applications
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Description

Lithuania is known for its strong background in laser physics. Currently, Lithuania accounts for more than half of the global market of pico-second laser spectrometers. The recent progress in pulsed lasers unleashed innovative fabrication and characterization technologies which helped to establish related new product markets. The expansion of laser utilization in consumer electronics production and even biomedicine demands an understanding of the basic laser operation principles. This micro-module aims to explain the advantages of pulsed lasers, peripheral products, and related new technologies.

The Team

TT
Tomas Tamulevičius
Teacher
AT
Asta Tamulevičienė
Teacher
0 learners
Study format
Online
Application period
23 December 2024 – 23 February 2025
Study period
18 March – 13 May 2025
Credits
2 ECTS
Pace
20%
Hosting university
Kaunas University of Technology
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Learning outcomes

Interpret working principles of continuous wave and pulsed lasers

The selection of laser working parameters is crucial to apply these devices for different applications. Students will be able to select between different lasers available in the market taking in mind the field of application.

ESCO SKILLS

Describe the nonlinear and ultrafast phenomena

Students will be able to discern nonlinear processes taking place in the material during the interaction with the laser radiation.

ESCO SKILLS

Choose laser processing parameters for micro-/nano- processing of material surfaces and in the bulk

Students will be able to choose the laser processing parameters in case of subtractive or additive manufacturing.

ESCO SKILLS

Describe the application limits of the theories explaining the nature of light

Students will be able to differentiate which effects related to light interaction with the material can be described using ray, wave, electromagnetic or quantum theories.

ESCO SKILLS

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Information

The first working laser was demonstrated in 1960, and afterward, the development of intense light sources has evolved rapidly opening a variety of possibilities for applications starting from the laser scanners in shops or laser printers in offices and ending with extremely intense and short duration (down to attoseconds, 10-18s) pulsed light sources for groundbreaking research. The importance of the laser-related research field was acknowledged by several Nobel prizes in Physics given for the development of the laser itself and more recently for advances in pulsed laser development via chirped pulse amplification method and laser applications like manipulation of micro-objects. This micro-module is devoted to attendees interested in emerging technologies in photonics and does not require more than basic knowledge of physics. In this micro-module, you will learn the principles of laser operation and will find out the variety of application possibilities of ultrafast laser sources in scientific research as well as in commercial products. You’ll be able to explain why ultra-short laser pulses are necessary for creating high-tech products.

Hosting university

Kaunas University of Technology

Kaunas University of Technology