Beyond Binary Quantum Information in Superconducting Circuits: Taking the Transmon for a Spin

This lecture by Machiel Blok from the University of Rochester explores the potential of encoding quantum information in multi-level systems as a resource-efficient approach to quantum computing and simulation. Discover ongoing research at the University of Rochester focused on exploring excited states in superconducting circuits, including demonstrations of preparing and reading Fock states of up to eleven microwave photons in a transmon circuit. Learn about efficient control methods for high-dimensional quantum systems using spin-displacement operations that correspond to rotations of large-angular moment spins. The presentation covers recent research findings, including a systematic study of High Ej/Ec transmon qudits up to d=12 and multi-frequency control and measurement of a spin-7/2 system encoded in a transmon qudit, with potential applications for bosonic quantum error correction and qu-dit simulation.