Current biased gradiometric flux qubit in a circuit-QED architecture

TL;DR

This paper introduces a method to control a flux qubit using ac bias currents within a circuit-QED setup, enhancing robustness and coherence for quantum computing applications.

Contribution

It presents a novel control scheme for the gradiometric flux qubit using ac bias currents, enabling effective manipulation while maintaining robustness against noise.

Findings

Control of GFQ states via ac bias current demonstrated

Scheme is robust against charge and flux fluctuations

Suitable for high-coherence quantum gate operations

Abstract

We propose a scheme for controlling the gradiometric flux qubit (GFQ) by applying an ac bias current in a circuit-QED architecture. The GFQ is insensitive to the magnetic flux fluctuations, which at the same time makes it challenging to manipulate the qubit states by an external magnetic field. In this study, we demonstrate that an ac bias current applied to the $\alpha$-junction of the GFQ can control the qubit states. Further, the present scheme is robust against the charge fluctuation as well as the magnetic flux fluctuations, promising a long coherence time for quantum gate operations. We introduce a circuit-QED architecture to perform the single and two-qubit operations with a sufficiently strong coupling strength.