在多量子比特晶格上演示通用参数纠缠门。

Demonstration of universal parametric entangling gates on a multi-qubit lattice.

作者信息

Reagor Matthew, Osborn Christopher B, Tezak Nikolas, Staley Alexa, Prawiroatmodjo Guenevere, Scheer Michael, Alidoust Nasser, Sete Eyob A, Didier Nicolas, da Silva Marcus P, Acala Ezer, Angeles Joel, Bestwick Andrew, Block Maxwell, Bloom Benjamin, Bradley Adam, Bui Catvu, Caldwell Shane, Capelluto Lauren, Chilcott Rick, Cordova Jeff, Crossman Genya, Curtis Michael, Deshpande Saniya, El Bouayadi Tristan, Girshovich Daniel, Hong Sabrina, Hudson Alex, Karalekas Peter, Kuang Kat, Lenihan Michael, Manenti Riccardo, Manning Thomas, Marshall Jayss, Mohan Yuvraj, O'Brien William, Otterbach Johannes, Papageorge Alexander, Paquette Jean-Philip, Pelstring Michael, Polloreno Anthony, Rawat Vijay, Ryan Colm A, Renzas Russ, Rubin Nick, Russel Damon, Rust Michael, Scarabelli Diego, Selvanayagam Michael, Sinclair Rodney, Smith Robert, Suska Mark, To Ting-Wai, Vahidpour Mehrnoosh, Vodrahalli Nagesh, Whyland Tyler, Yadav Kamal, Zeng William, Rigetti Chad T

机构信息

Rigetti Computing, 775 Heinz Avenue, Berkeley, CA 94710, USA.

出版信息

Sci Adv. 2018 Feb 2;4(2):eaao3603. doi: 10.1126/sciadv.aao3603. eCollection 2018 Feb.

DOI:10.1126/sciadv.aao3603

PMID:29423443

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5804605/

Abstract

We show that parametric coupling techniques can be used to generate selective entangling interactions for multi-qubit processors. By inducing coherent population exchange between adjacent qubits under frequency modulation, we implement a universal gate set for a linear array of four superconducting qubits. An average process fidelity of ℱ = 93% is estimated for three two-qubit gates via quantum process tomography. We establish the suitability of these techniques for computation by preparing a four-qubit maximally entangled state and comparing the estimated state fidelity with the expected performance of the individual entangling gates. In addition, we prepare an eight-qubit register in all possible bitstring permutations and monitor the fidelity of a two-qubit gate across one pair of these qubits. Across all these permutations, an average fidelity of ℱ = 91.6 ± 2.6% is observed. These results thus offer a path to a scalable architecture with high selectivity and low cross-talk.

摘要

我们表明，参数耦合技术可用于为多量子比特处理器生成选择性纠缠相互作用。通过在频率调制下诱导相邻量子比特之间的相干布居交换，我们为四个超导量子比特的线性阵列实现了一个通用门集。通过量子过程层析成像估计，三个两量子比特门的平均过程保真度为ℱ = 93%。我们通过制备一个四量子比特最大纠缠态，并将估计的态保真度与各个纠缠门的预期性能进行比较，来确定这些技术对计算的适用性。此外，我们以所有可能的比特串排列制备一个八量子比特寄存器，并监测其中一对量子比特上一个两量子比特门的保真度。在所有这些排列中，观察到平均保真度为ℱ = 91.6 ± 2.6%。因此，这些结果为实现具有高选择性和低串扰的可扩展架构提供了一条途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b0a/5804605/d4bed81bbe61/aao3603-F1.jpg

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在多量子比特晶格上演示通用参数纠缠门。

Demonstration of universal parametric entangling gates on a multi-qubit lattice.

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