Project title: Electron Transport in Complex Oxide Quantum Dots
I have a background in experimental condensed matter physics, with a focus on semiconductor nanostructures and material growth. My Master’s thesis, titled “MBE Growth and Characterization of InAs/GaSb Core/Shell Nanowire Arrays,” laid the foundation for my research in nanoscale materials. I furthered this work in my PhD thesis, “Planar Semiconductor Nanowires on High-Index Substrates,” where I explored advanced semiconductor nanowire systems.
During my postdoc at the Niels Bohr Institute, University of Copenhagen, I expanded my expertise in molecular beam epitaxy (MBE) growth and characterization of hybrid materials, focusing on shallow InAs 2DEGs coupled with ferromagnetic insulators and superconductors.
At DTU Energy, I am excited to apply this experience to the study of oxide heterostructures in quantum devices. These materials, unlike traditional semiconductors, present unique challenges and opportunities due to their complex electron interactions, leading to phenomena such as ferroelectricity and gate-tunable superconductivity. My research will leverage the high electron mobility and tunability of these materials, focusing on their strong spin-orbit coupling to advance spin-qubit technology.
As part of the IQARO project, I will be fabricating nanoscale quantum devices and conducting quantum transport measurements at extremely low temperatures. My goal is to pioneer new functionalities in quantum electronics that push beyond the capabilities of conventional semiconductor materials
Start date: 01-08-2024
End date: 31-07-2026