A new carbon nanotube-based filter for quantum computing applications
Wednesday, December 4, 2019 En français Superconducting quantum circuits are sensitive to electromagnetic interference and thermal radiation, and such interactions with the environment lead to the undesirable phenomenon of quantum decoherence. Commercially available filters, such as lumped-element filters and waveguide-based filters, become leaky or simply stop working above certain frequencies. While lossy transmission line […]
December 4, 2019
Novel Superconducting Qubits for Error-Corrected Processors
Summary In this project, we develop novel superconducting qubits for error-corrected processors to enable large-scale quantum computing. Our design efforts will specifically target error-corrected architectures through a variety of paths. Possible features will include built-in parity measurements and the use of bosonic codes, such as Fock state and Cat codes, as our starting focus. Early […]
June 26, 2019