# Simplify proposal for realizing multiqubit tunable phase gate in circuit   QED

**Authors:** Wen-An Li, Yuan Chen

arXiv: 1702.08448 · 2017-07-17

## TL;DR

This paper proposes a simple, efficient scheme for implementing multiqubit tunable phase gates in circuit QED using only a classical microwave pulse, with high fidelity and potential for scalability.

## Contribution

It introduces a novel, minimal-control method for multiqubit phase gates in circuit QED, utilizing only a classical pulse and applicable to multiple qubits.

## Key findings

- Achieves high-fidelity phase gates with minimal control.
- Demonstrates fast gate operation under resonant conditions.
- Shows the scheme's scalability to N-qubit systems.

## Abstract

We propose a scheme to realize a multiqubit tunable phase gate in a circuit QED setup where two resonators, each coupling with a qudit, are interconnected to a common qudit (d=4). In this proposal, only two levels of each qudit serve as the logical states and the other two levels are used for the gate realization. The proposal is efficient and simple because only a classical microwave pulse is needed, no matter how many qudits are involved, which significantly reduces experimental difficulty. In a nonresonant case, the tunable phase gate can be achieved readily, while under the resonant condition, a {\pi}-phase gate can be realized after a full cycle of Rabi oscillation where the gate speed is rather fast due to the resonant interaction. We have shown that the resulting effective dynamics allows for the creation of a high-fidelity phase gate. The influence of various decoherence processes such as the decay of the resonator mode and the relaxation of the qudits is investigated. Moreover, the proposed scheme can be easily generalized to realize N-qubit phase gate.

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/1702.08448/full.md

## References

38 references — full list in the complete paper: https://tomesphere.com/paper/1702.08448/full.md

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Source: https://tomesphere.com/paper/1702.08448