Develop and implement a platform for dynamical optical Q-switching of superconducting resonators to achieve ultrafast and nondestructive readout of gate-defined spin qubits.
Conduct high-frequency opto-transport experiments at cryogenic temperatures .
Design, build, and optimize experimental setups for optoelectronic measurements
Collaborate closely with consortium partners, particularly the groups of Prof. Richard Warburton and Dr. Andreas Kuhlmann
Your profile
Required:
PhD (completed or near completion) in Physics, Nanoscience, Electrical/Optical Engineering, or related fields
Proven expertise in condensed matter physics , particularly in quantum dot systems or superconducting circuits (evidenced by publications or projects)
Experience with high-frequency transport experiments at low temperatures