铜对盒网络中的Majorana零模式:拓扑有序态和拓扑量子计算

IF 14.3 1区物理与天体物理 Q1 PHYSICS, CONDENSED MATTER

Annual Review of Condensed Matter Physics Pub Date : 2020-03-10 DOI:10.1146/annurev-conmatphys-031218-013618

Y. Oreg, F. Oppen

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引用次数: 41

摘要

最近的实验进展介绍了可以将拓扑超导性与库仑封锁效应结合起来的装置。这些器件的实验已经为接近耦合半导体线中的马约拉纳零模式提供了额外的证据。他们还激发了许多关于如何利用马约拉纳线网络中库仑充电效应产生的马约拉纳零模式之间相互作用的想法。库仑效应有望成为探索拓扑量子计算机以及驱动拓扑超导体进入拓扑有序绝缘状态的强大工具。在这里，我们重点回顾了这些最新的发展，包括最近实验的讨论，拓扑量子比特的设计，基于马约拉纳的通用量子计算实现，以及拓扑量子纠错。基于量子比特和自旋1/2自由度之间的类比，我们还回顾了库珀对盒之间的耦合如何导致出现拓扑有序的绝缘相。

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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Majorana Zero Modes in Networks of Cooper-Pair Boxes: Topologically Ordered States and Topological Quantum Computation

Recent experimental progress introduced devices that can combine topological superconductivity with Coulomb-blockade effects. Experiments with these devices have already provided additional evidence for Majorana zero modes in proximity-coupled semiconductor wires. They also stimulated numerous ideas for how to exploit interactions between Majorana zero modes generated by Coulomb charging effects in networks of Majorana wires. Coulomb effects promise to become a powerful tool in the quest for a topological quantum computer as well as for driving topological superconductors into topologically ordered insulating states. Here, we present a focused review of these recent developments, including discussions of recent experiments, designs of topological qubits, Majorana-based implementations of universal quantum computation, and topological quantum error correction. Motivated by the analogy between a qubit and a spin-1/2 degree of freedom, we also review how coupling between Cooper-pair boxes leads to emergent topologically ordered insulating phases.

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来源期刊

Annual Review of Condensed Matter Physics PHYSICS, CONDENSED MATTER-

CiteScore

47.40

自引率

0.90%

发文量

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.