Academic interests
I work with ultrawide bandgap (UWBG) semiconductors, a class of materials that have bandgaps > 4eV , and therefore also high critical fields, making them excellent candidates for application in power electronics.
More specifically I work on growing Ga2O3 on diamonds, with the goal of understanding whether they can be a useful platform for power electronics. We do this by studying optimal growth conditions and the combined electronic properties of the two materials.
Courses taught
FYS2130 Waves and oscillations, spring 2024
Background
Master of Science in Nanotechnology, specialisation in Nanoelectronics from NTNU, Norway