suspended CVD graphene
“Spectroscopy of Andreev & Majorana Bound States in Semiconducting Nanowires with Proximitized Superconductivity”
A fellowship for an experimental PhD thesis work is now available in the Nano- and Quantum Electronics group at the Department of Physics of the University of Basel: www.nanoelectronics.ch
This PhD project is part of a recently EC funded PhD school, entitled QUESTEC, Quantum Science and Technologies at the European Campus, see The European Campus. It is one out of several PhD projects that will start in autumn this year and for which application is possible now.
The project is motivated by the recent excitement of the appearance of topological phases and Majorana bound states (MBSs) in semiconducting nanowires (NWs) with strong spin-orbit inter-action (SOI) coupled to a superconductor (SC) in magnetic field. To unravel the emergence of MBSs in single and coupled NWs, we develop new probes with which the proximity gap and proximity-induced bound states can be quantified. Our approach is based on measuring both DC and AC transport, the latter also at GHz frequencies using reflectometry. As a complementary test, we can also study the microwave radiation in the GHz domain emitted by the quantum device. With the current project we aim to deepen our understanding of the superconductive proximity effect in a NW with strong SOI by studying the evolution of the gap spectroscopically. For the latter we exploit quantum dots (QDs) as spectrometers. Here, the QDs are established by heteroepitaxy during growth. This is done in collaboration with Prof. Lucia Sorba from CNR-Nano at Pisa, where the InAs NWs are grown (see figure). These QDs are very promising due to the large confinement potential. We further plan to test different SCs beyond Al, e.g. Pd and MoRe, and optimize the evaporation together with collaborators from the Niels-Bohr Institute in Copenhagen.
We are looking for a highly motivated student (preferably a physicist) who is keen to explore fundamental aspects of quantum devices. You will design and fabricate your own devices using tailored nanowires and state-of-the-art micro- and nanofabrication.
All PhD fellows are expected to work in a team and collaborate with other PhD and postdoctoral fellows, as well as bachelor and master students joining the lab part of their time. Start of the project 1st of July 2019 or earlier. Duration 3-4 years. Requirement: you need to have a profound understanding of quantum and solid state physics as it is taught in a physics curriculum.
To apply: If you are interested you have to drop your application online before August 19th under QUESTEC-APPLY (see at the bottom of the page, there is a button: APPLY NOW. I would be happy if you could inform me by email my-email, so that I have an overview of who applied: I would also be interested if you could add in your email a short statement (few lines only) on your motivation and your education / background in quantum physics and solid-state physics.