About this course
To equip you with the necessary theoretical and numerical tools to understand the diverse emergent phenomena originating from strong light-matter interaction. The course will provide you with basics on optical properties of two-dimensional materials and you will be introduced to research-level methodologies to treat their strong interaction with classical and quantum light.
Learning outcomes
At the end of the course the learner will be able to: • List the relevant symmetries in 2D materials; • Construct tight-binding models for most representative 2D materials; • Model the optical response of 2D Materials; • Derive Electric and Magnetic Fields in quantized form; • List and explain the different gauge choices; • Derive Light-matter coupling from local charge conservation; • Explain the consequence of periodic laser driving of materials; • Apply Floquet theory to engineer band structures in 2D materials; • Model the formation of composite polaritons
Examination
Evaluation of exercises/reports - all aids available. Graded pass/fail only.
Resources
- Tailored notes from teacher and references to research papers.
Activities
This is an intensive course for 3 weeks in June. Lectures, Numerical and Analytical Exercises, Project.
Additional information
- Institution locationAnker Engelunds Vej 1, Online
- More infoCoursepage on website of Technical University of Denmark
- Contact a coordinator
- CreditsECTS 5
- LevelMaster
- Contact hours per week0
- InstructorsMads Brandbyge
- Mode of instructionHybrid
Offering(s)
Start date
4 June 2025
- Ends26 June 2025
- Term *June 2025
- LocationOnline
- Instruction language
- Register between29 Oct - 29 Nov 2024
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