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Paper detail

Anneal-path correction in flux qubits

Quantum annealers require accurate control and optimized operation schemes to reduce noise levels, in order to eventually demonstrate a computational advantage over classical algorithms. We study a high coherence four-junction capacitively shunted flux qubit (CSFQ), using dispersive measurements to extract system parameters and model the device. Josephson junction asymmetry inherent to the device causes a deleterious nonlinear cross-talk when annealing the qubit. We implement a nonlinear annealing path to correct the asymmetry in-situ, resulting in a substantial increase in the probability of the qubit being in the correct state given an applied flux bias. We also confirm the multi-level structure of our CSFQ circuit model by annealing it through small spectral gaps and observing quantum signatures of energy level crossings. Our results demonstrate an anneal-path correction scheme designed and implemented to improve control accuracy for high-coherence and high-control quantum annealers, which leads to an enhancement of success probability in annealing protocols.

preprint2021arXivOpen access
Mostafa KhezriJeffrey A. GroverJames I. BashamSteven M. DisselerHuo ChenSergey NovikovKenneth M. ZickDaniel A. Lidar
quant-ph
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Mostafa KhezriJeffrey A. GroverJames I. BashamSteven M. DisselerHuo ChenSergey NovikovKenneth M. ZickDaniel A. Lidar

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