Southwest Quantum Information and Technology

Flux-noise insensitive and flux-tunable superconducting qubit

Presenting Author: Eyob Sete, Rigetti Quantum Computing
Contributing Author(s): Matthew Reagor, Nicolas Didier, and Chad Rigetti

Fast high-fidelity two-qubit gates are an essential component of a universal quantum computer. Tunable qubits are promising candidates to realize such gates. However, tunability often comes at the expense of increased noise-sensitivity for a qubit, thus degrading gate performance. We propose a superconducting circuit that mitigates a dominant noise source for a class of tunable qubits. The circuit consists of a SQUID with asymmetric junctions and shunted using a superinductor. We show that flux ‘sweet spots’ can be engineered at the frequency of operation by varying the junction asymmetry and the applied magnetic flux. This device coupled with a fixed frequency qubit allows a realization of fast high-fidelity two-qubit gates.

(Session 5 : Thursday from 5:00pm - 7:00pm)