Join an international collaboration where you will investigate atomic quantum light sources based on donor-vacancy complexes in transition metal dichalcogenides (TMDs) on plasmonically-enhanced 2D metal substrates. You will use advanced scanning probe microscopy to investigate the light-matter interaction at the atomic scale, study photon correlation from electrically-stimulated luminescence (STML) of atomic quantum emitters, and explore exciton dynamics and energy transfer mechanisms using ultrafast lightwave-driven tunneling (THz-STM).
We seek a highly motivated experimentalist with a PhD in physics, materials science, electrical engineering, or a related field. Candidates should have a strong background in solid-state physics, optics, or quantum nanoscience. Prior experience with scanning probe microscopy, ultra-high vacuum, THz optics, 2D materials, or programming in Python/LabVIEW are advantageous. We are looking for a team player eager to engage with cutting-edge research in a collaborative, international setting. Excellent communication skills in English are required.