Research area: Two-dimensional electron gases, oxides heterostructures, spintronics, nanofabrication, devices
My research concerns conducting interfaces of oxide heterostructures, in particular heterointerfaces involving SrTiO3 - the oxide equivalent of silicon.
The purpose of my current research within spintronics is to pave the way for energy efficient electronics based on spin information rather than charge, and help solve the problem with rising energy consumption of e.g. information and communication technologies.
Specifically, my research is focused on fabrication and characterization of metallic oxide heterointerface devices for the study of e.g. the spin Hall effect and Edelstein effect in two-dimensional electronic systems based on SrTiO3. Nanoscale devices of this two-dimensional electronic system will provide more information of the Rashba spin-orbit coupling at complex oxide interfaces and the nature of correlated electronic systems.
Start date of employment: 01-04-2021