During your Master’s in Applied Physics (AP), you will collect a total of 120 EC within two years. In addition to the compulsory courses of the Master’s in Applied Physics, you will follow additional courses within the specialisation in Applied Nanophotonics. Your second year consists of an internship and your final master’s assignment.
Choose your direction
Within this specialisation, you can go into four different directions: Biomedical Optics, Integrated Optics, Light and Matter Interaction or Quantum Optics. So, next to one compulsory course related to this specialisation, you will follow elective courses within one of these four directions.
Structure
| Number of EC |
|
---|---|---|
Compulsory courses
| 20 EC | |
Specialisation courses For the specialisation in Applied Nanophotonics, you will follow one mandatory course and three elective specialisation courses related to one of the four directions within this specialisation.
| 20 EC | Mandatory specialisation course Biomedical Optics Integrated Optics Light and Matter Interaction Quantum Optics |
Elective courses | 20 EC | You can fill up your elective space with courses that match your interests and ambitions. You can choose any master’s course offered at UT, both from the Master’s in Applied Physics and other master’s. |
Internship | 20 EC | In the first quartile of your second year, you will do an internship. |
Master’s thesis
| 40 EC | You will finish your Master’s in AP with your master’s thesis (30 EC). |
Total EC | 120 EC |
|
Internship
During your Master’s in Applied Physics, you will gain practical experience by doing an internship for approximately three months. Within the specialisation in Applied Nanophotonics there are many options open to you when it comes to choosing your internship.
Examples of internships students previously took on:
- Improving the performance of a fibre-based gyroscope by a smarter detection algorithm at Ned-Aero, a manufacturer of components for aircraft and helicopters
- Designing meta-surfaces for radiative cooling of radar units at high-tech manufacturer Thales
- Improving dispersion compensation for high harmonic generation at Lund University
Master's thesis
You will complete your Master’s by writing your master’s thesis. The choice of your graduation subject is largely up to you and you will write your thesis under the supervision of a professor of one of the research groups. You might, for example, work on photonic quantum cryptography to improve credit card security or build optical fibre-based sensors for salt detection in groundwater aquifers. Or what about using your knowledge of optical sciences to detect multiple sclerosis (MS) at an early stage?