The research includes fabrication of superconducting electronic circuits using methods of nanoscale circuit lithography, and measurement of their quantum properties at ultra-low temperature with the latest digital high-speed electronics. We want to create so-called cluster states in the microwave frequency band (4-8 GHz) by synchronous pumping of a nonlinear superconducting circuit at multiple frequencies. In theory, cluster states can be used for quantum information processing in a one-way quantum computer. Our goal is to demonstrate this in an experiment. Your work will primarily be at KTH in group of Prof. David Haviland, but the research project is a collaboration with Aalto University in Helsinki Finland, and part of you time will be spent in the group of Prof. Pertti Hakonen.
How to apply
More information and link to application portal at: https://www.kth.se/en/api/2.61673/what:job/jobID:461259/where:4/
Post Doc - Entanglement in microwave frequency combs
The research includes fabrication of superconducting electronic circuits using methods of nanoscale circuit lithography, and measurement of their quantum properties at ultra-low temperature with the latest digital high-speed electronics. We want to create so-called cluster states in the microwave frequency band (4-8 GHz) by synchronous pumping of a nonlinear superconducting circuit at multiple frequencies. In theory, cluster states can be used for quantum information processing in a one-way quantum computer. Our goal is to demonstrate this in an experiment. Your work will primarily be at KTH in group of Prof. David Haviland, but the research project is a collaboration with Aalto University in Helsinki Finland, and part of you time will be spent in the group of Prof. Pertti Hakonen.
