| CS5960MASC – CS: Materials Science. Master Thesis (60 credits) |
60 |
| CS5960PHYS – CS: Physics. Master Thesis (60 credits) |
60 |
| EIT5960 – Electrical Engineering, Informatics and Technology, Master Thesis (60 credits) |
60 |
| FYS-KJM3506 – Nuclear methods and instrumentation (10 credits) |
10 |
| FYS-KJM4506 – Nuclear methods and instrumentation (10 credits) |
10 |
| FYS-MENA4111 – Quantum Mechanical Modelling of Nanomaterials (10 credits) |
10 |
| FYS-STK3155 – Applied Data Analysis and Machine Learning (10 credits) |
10 |
| FYS-STK4155 – Applied Data Analysis and Machine Learning (10 credits) |
10 |
| FYS2160 – Thermodynamics and Statistical Physics (10 credits) |
10 |
| FYS2280 – Space Technology (5 credits) |
5 |
| FYS2805 – Project assignment (5 credits) |
5 |
| FYS2810 – Undergraduate Research I (10 credits) |
10 |
| FYS2820 – Undergraduate Research II (20 credits) |
20 |
| FYS2830 – Undergraduate Research III (30 credits) |
30 |
| FYS3110 – Quantum Mechanics (10 credits) |
10 |
| FYS3150 – Computational Physics (10 credits) |
10 |
| FYS3231 – Sensors and Measurement Technology (10 credits) |
10 |
| FYS3280 – Semiconductor Components (10 credits) |
10 |
| FYS3580 – Introduction to Nuclear Reactor Physics (10 credits) |
10 |
| FYS3600 – Space Physics and Technology (10 credits) |
10 |
| FYS3700 – Biophysics and Medical Physics (10 credits) |
10 |
| FYS4110 – Advanced Quantum Mechanics (10 credits) |
10 |
| FYS4150 – Computational Physics (10 credits) |
10 |
| FYS4170 – Relativistic Quantum Field Theory (10 credits) |
10 |
| FYS4220 – Real Time and Embedded Data Systems (10 credits) |
10 |
| FYS4231 – Sensors and Measurement Technology (10 credits) |
10 |
| FYS4239 – Electrical Bioimpedance (10 credits) |
10 |
| FYS4250 – Biomedical Instrumentation (10 credits) |
10 |
| FYS4280 – Semiconductor Components (10 credits) |
10 |
| FYS4340 – Transmission Electron Microscopy: imaging, diffraction and spectroscopy I (10 credits) |
10 |
| FYS4420 – Experimental Techniques in Porous and Complex Systems (10 credits) |
10 |
| FYS4430 – Condensed Matter Physics II (10 credits) |
10 |
| FYS4465 – Dynamics of Complex Media (10 credits) |
10 |
| FYS4480 – Quantum mechanics for many-particle systems (10 credits) |
10 |
| FYS4505 – Methods and Instrumentation for Nuclear and Particle Physics (10 credits) |
10 |
| FYS4515 – Nuclear Physics I (10 credits) |
10 |
| FYS4515A – Nuclear Reactions (5 credits) |
5 |
| FYS4515B – Statistical Properties of Atomic Nuclei (5 credits) |
5 |
| FYS4525 – Advanced Nuclear Reactions and Applications in Astrophysics (5 credits) |
5 |
| FYS4545 – Resonances in Atomic Nuclei (5 credits) |
5 |
| FYS4555 – Particle Physics (10 credits) |
10 |
| FYS4570 – Advanced Nuclear Structure (10 credits) |
10 |
| FYS4575 – Exotic Nuclei (5 credits) |
5 |
| FYS4580 – Introduction to Nuclear Reactor Physics (10 credits) |
10 |
| FYS4600 – Space Physics and Technology (10 credits) |
10 |
| FYS4640 – Space Weather and Navigation Satellite Systems (10 credits) |
10 |
| FYS4700 – Biophysics and Medical Physics (10 credits) |
10 |
| FYS4711 – Radiation and Dosimetry (10 credits) |
10 |
| FYS4715 – Biological Physics (10 credits) |
10 |
| FYS4720 – Cellular Radio Biology (10 credits) |
10 |
| FYS5190 – Supersymmetry (10 credits) |
10 |
| FYS5210 – Solar cells (10 credits) |
10 |
| FYS5320 – Electron Microscopy, Electron Diffraction and Spectroscopy II (10 credits) |
10 |
| FYS5960 – Physics. Master Thesis (60 credits) |
60 |
| FYS9110 – Advanced Quantum Mechanics (10 credits) |
10 |
| FYS9170 – Relativistic Quantum Field Theory (10 credits) |
10 |
| FYS9180 – Condensed Matter Field Theory (10 credits) |
10 |
| FYS9190 – Supersymmetry (10 credits) |
10 |
| FYS9220 – Real Time and Embedded Data Systems (10 credits) |
10 |
| FYS9239 – Electrical Bioimpedance (10 credits) |
10 |
| FYS9250 – Biomedical Instrumentation (10 credits) |
10 |
| FYS9340 – Transmission Electron Microscopy: imaging, diffraction and spectroscopy I (10 credits) |
10 |
| FYS9420 – Experimental Techniques in Porous and Complex Systems (10 credits) |
10 |
| FYS9430 – Condensed Matter Physics II (10 credits) |
10 |
| FYS9465 – Dynamics of Complex Media (10 credits) |
10 |
| FYS9505 – Methods and Instrumentation for Nuclear and Particle Physics (10 credits) |
10 |
| FYS9515 – Nuclear Physics I (10 credits) |
10 |
| FYS9515A – Nuclear Reactions (5 credits) |
5 |
| FYS9515B – Statistical Properties of Atomic Nuclei (5 credits) |
5 |
| FYS9525 – Advanced Nuclear Reactions and Applications in Astrophysics (5 credits) |
5 |
| FYS9545 – Resonances in Atomic Nuclei (5 credits) |
5 |
| FYS9570 – Advanced Nuclear Structure (10 credits) |
10 |
| FYS9575 – Exotic Nuclei (5 credits) |
5 |
| FYS9580 – Introduction to Nuclear Reactor Physics (10 credits) |
10 |
| FYS9640 – Space Weather and Navigation Satellite Systems (10 credits) |
10 |
| FYS9711 – Radiation and Dosimetry (10 credits) |
10 |
| FYS9715 – Biological Physics (10 credits) |
10 |
| FYS9720 – Cellular Radiobiology (10 credits) |
10 |
| MENA9510 – Advanced Characterization Methods (5 credits) |
5 |
| MNKOM9010 – Communicating Science (5 credits) |
5 |
| MNPED9000 – Teaching in STEM (5 credits) |
5 |
| MNSES9100 – Science, Ethics and Society (5 credits) |
5 |
| NUK5960 – Nuclear Science. Master Thesis (60 credits) |
60 |