EVA: Complementary Modules AY22-23

1. Oral Presentation  (25%) 
2. Working assignment in the lab (25 %) 
3. Reports on the experiments (50 %) 

• Week 1: Coming together (Virtual meeting, 1.5 h)
• Weeks 2 and 3: Self Studying / Preparation of the oral Presentation
• Week 4: Oral presentation at SoE (Winterthur) (half a day)
• Week 5 and 6: Experiments in the Optical Labs at ZHAW, Winterthur
• Weeks 7 and 8: Finalizing Data Evaluation und Reports
• Week 9: Electronical Submission of the reports

• Selfstudying, Reports: 40 % 
• Hands-On exeperiments in the lab 50% 
• Participation Oral Presentations: 10%

English or German (depends on the course participants)

This course offered by ZHAW’s optics laboratories provides hands-on experience in the areas spectroscopy, interferometry, and light emission. The hands-on laboratory experiences contributes to deepening the theoretical understanding of some fundamental topics of Photonics through application.

The course takes place in the optical research laboratories of ZHAW in Winterthur, where the mentioned techniques are continuously investigated and pushed further in cutting-edge research projects. Starting from the adjustment of a simple interferometer, interferometry is investigated in advanced settings, such as fiber optical rotational sensing, the characterization of a laser using a Fabry-Perot interferometer, and terahertz spectroscopy, including the generation and application of terahertz waves. The analysis of emitted light is the principle behind many sensors and is used in a huge number of applications in gas- and biosensing. Two examples analyzed in this course are thermography, which delivers specific information about the temperature and surfaces, and fluorescence spectroscopy, which allows gaining knowledge of the analyzed material or its environment. Another technology that is analyzed is quantum dots (QDs) placed in thin optical films. QDs represent modern fluorescent dyes whose properties can be customised and are becoming increasingly important in the further development of displays and solar panels, for example.

The hands-on laboratory experience will be complemented by data analysis techniques which will contribute to the theoretical understanding.

The course includes student seminars on the theoretical aspects of topics related to the experimental activities. For these seminars, the theory will be analyzed in guided self-studying sessions followed by short oral presentations.

Course material will be distributed in digital copies to the students.

At least one semester of “Photonics” has to be completed.

Prof. Dr. Christoph Stamm