Feedback control of persistent-current oscillation based on the atomic-clock technique
Abstract
We propose a scheme of stabilizing the persistent-current Rabi oscillation based on the flux qubit-resonator-atom hybrid structure. The LC resonator weakly interacts with the flux qubit and maps the persistent-current Rabi oscillation onto the intraresonator electric field. This field is further coupled to a Rydberg-Rydberg transition of the Rb atom. The Rabi-frequency fluctuation of the flux qubit is deduced from measuring the atomic population and stabilized via feedback controlling the external flux bias. Our numerical simulation indicates that the feedback-control method can efficiently suppress the background fluctuations in the flux qubit, especially in the low-frequency limit. This technique may be extensively applicable to different types of superconducting circuits, paving a new way to long-term-coherence superconducting quantum information processing.
Keywords
Cite
@article{arxiv.1805.00594,
title = {Feedback control of persistent-current oscillation based on the atomic-clock technique},
author = {Deshui Yu and Rainer Dumke},
journal= {arXiv preprint arXiv:1805.00594},
year = {2018}
}
Comments
4 figures