Circuit QED realization of two-qubit photonic phase gate

X. Jiang, Z. Q. Zhang, S. Tang
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Abstract

Circuit QED based on superconducting circuit structure is similar to the model of interaction between cavity field and atoms, and is solidified on the substrate, so it is more suitable for integration, expansion and control. The circuit QED system consists of resonators and superconducting qubits, the length of the resonators much larger than width, so it can be regarded as a one-dimensional linear planar structure in theory. We propose a theoretical model to realizing two-qubit photonic phase gate, we use two superconducting resonators to couple a magnetic flux qutrit via two capacitors in circuit QED system, and choose an appropriate interaction time, it turns out that a two-qubit photonic phase gate can be realized by one step.
双量子位光子相位门的电路QED实现
基于超导电路结构的电路QED类似于腔场与原子相互作用的模型,并且固化在衬底上,因此更适合于集成、扩展和控制。电路QED系统由谐振腔和超导量子比特组成,谐振腔的长度远大于宽度,理论上可以看作是一维线性平面结构。提出了实现双量子位光子相位门的理论模型,在电路QED系统中利用两个超导谐振器通过两个电容耦合一个磁通量子位,并选择合适的相互作用时间,一步实现了双量子位光子相位门。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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