100%, starting by agreementThe at the University of Basel invites applications for a PhD position to develop and apply a “Quantum optical twist and scan microscope” - an entirely novel scanning probe instrument for nanoscale studies of emergent properties of twisted two-dimensional (2D) materials.Your positionStacking and twisting atomically thin materials offers unprecedented control over their nanoscale magnetic, electronic, and optical properties. In this project, we will develop a novel instrument for in-situ assembly of 2D heterostructures, opening new possibilities to study strongly correlated electronic phases and magnetic order. The tool will integrate transport, optical spectroscopy, and quantum sensing techniques to probe these emergent states. The successful candidate will join a small, collaborative team and be involved in all stages of the research cycle:
design and operation of scanning probe instrumentation
fabrication of van der Waals heterostructures
transport, optical spectroscopy, and quantum sensing experiments
data analysis, modeling, and scientific communication
Your profile
Master's degree (or equivalent) in physics or a related field
strong motivation for experimental condensed matter physics, with enthusiasm for both building instruments and using them to answer fundamental questions
background or interest in condensed matter physics, magnetism, or 2D materials
experience or interest in nanofabrication, cryogenics, or scanning probe techniques
We offer you
a stimulating research environment with state-of-the-art infrastructure
close supervision and room for scientific independence
opportunities to attend international conferences and schools
a fully funded PhD position with competitive salary and benefits
Application / ContactPlease submit your application via our online recruiting platform, including:
Cover letter outlining your motivation and interest
CV
Academic transcripts
Contact details of at least one academic reference
Deadline: Applications will be considered on a rolling basis until the position is filled.Start date: by agreementTo explore our work further, visit or reach out directly to the group leader Prof. Patrick Maletinsky ( ) or the project team (Patrick Knüppel, ). Informal questions and expressions of interest are very much encouraged.Join us in advancing the frontiers of quantum sensing and exploring the fundamental physics of interacting electrons and spins at the nanoscale!
