suspended CVD graphene
Office 1.17
jannhinnerk.ungerer@unibas.ch
Education
| since 2018 | Swiss Nanoscience Institute/ University of Basel (Switzerland) Ph.D. Candidate in the group of Prof. Christian Schönenberger |
| 2016–2018 | ETH Zürich (Switzerland) Master of Science in Physics Thesis: Scaling up quantum dot-based qubits using a circuit QED architecture in the group of Prof. Andreas Wallraff |
| 2013–2016 | Georg-August Universität Göttingen (Germany) Bachelor of Science in Physics Thesis: Intermittency in excitable media in the group of Prof. Ulrich Parlitz at the Max-Planck Institute for Dynamics and Self-Organization |
Research
In my Ph.D. I am working on coupling semiconductor nanowire-based spin quantum bits to a high-impedance, superconducting resonator. The advantage of employing nanowires for spin qubits lies in their large, intrinsic spin-orbit interaction which avoids the necessity of inhomogeneous magnetic fields when coupled to a resonator. That’s why this approach is an important step towards scalable, spin-based quantum computers.