Superconducting Qubits: Current State of Play

IF 14.3 1区 物理与天体物理 Q1 PHYSICS, CONDENSED MATTER
M. Kjaergaard, M. Schwartz, Jochen Braumuller, P. Krantz, J. Wang, S. Gustavsson, W. Oliver
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引用次数: 854

Abstract

Superconducting qubits are leading candidates in the race to build a quantum computer capable of realizing computations beyond the reach of modern supercomputers. The superconducting qubit modality has been used to demonstrate prototype algorithms in the noisy intermediate-scale quantum (NISQ) technology era, in which non-error-corrected qubits are used to implement quantum simulations and quantum algorithms. With the recent demonstrations of multiple high-fidelity, two-qubit gates as well as operations on logical qubits in extensible superconducting qubit systems, this modality also holds promise for the longer-term goal of building larger-scale error-corrected quantum computers. In this brief review, we discuss several of the recent experimental advances in qubit hardware, gate implementations, readout capabilities, early NISQ algorithm implementations, and quantum error correction using superconducting qubits. Although continued work on many aspects of this technology is certainly necessary, the pace of both conceptual and technical progress in recent years has been impressive, and here we hope to convey the excitement stemming from this progress.
超导量子比特:当前状态
超导量子比特在建造量子计算机的竞赛中处于领先地位,量子计算机能够实现现代超级计算机无法实现的计算。超导量子比特模式已被用于在噪声中尺度量子(NISQ)技术时代演示原型算法,其中使用非纠错量子比特实现量子模拟和量子算法。随着最近多个高保真度、双量子比特门的演示以及可扩展超导量子比特系统中逻辑量子比特的操作,这种模式也有望实现构建更大规模纠错量子计算机的长期目标。在这篇简短的综述中,我们讨论了最近在量子比特硬件、门实现、读出能力、早期NISQ算法实现和使用超导量子比特进行量子纠错方面的几个实验进展。尽管在这项技术的许多方面继续进行工作当然是必要的,但近年来概念和技术进步的步伐令人印象深刻,我们希望在这里传达这种进步所带来的兴奋。
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来源期刊
Annual Review of Condensed Matter Physics
Annual Review of Condensed Matter Physics PHYSICS, CONDENSED MATTER-
CiteScore
47.40
自引率
0.90%
发文量
27
期刊介绍: Since its inception in 2010, the Annual Review of Condensed Matter Physics has been chronicling significant advancements in the field and its related subjects. By highlighting recent developments and offering critical evaluations, the journal actively contributes to the ongoing discourse in condensed matter physics. The latest volume of the journal has transitioned from gated access to open access, facilitated by Annual Reviews' Subscribe to Open initiative. Under this program, all articles are now published under a CC BY license, ensuring broader accessibility and dissemination of knowledge.
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