Engineering topological states and quantum-inspired information processing using classical circuits

Tian Chen, Weixuan Zhang, Deyuan Zou, Yifan Sun, Xiangdong Zhang
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引用次数: 0

Abstract

Based on the correspondence between circuit Laplacian and Schrodinger equation, recent investigations have shown that classical electric circuits can be used to simulate various topological physics and the Schrodinger's equation. Furthermore, a series of quantum-inspired information processing have been implemented by using classical electric circuit networks. In this review, we begin by analyzing the similarity between circuit Laplacian and lattice Hamiltonian, introducing topological physics based on classical circuits. Subsequently, we provide reviews of the research progress in quantum-inspired information processing based on the electric circuit, including discussions of topological quantum computing with classical circuits, quantum walk based on classical circuits, quantum combinational logics based on classical circuits, electric-circuit realization of fast quantum search, implementing unitary transforms and so on.
工程拓扑状态和使用经典电路的量子启发式信息处理
基于电路拉普拉斯和薛定谔方程之间的对应关系,近年来的研究表明,经典电路可以用来模拟各种拓扑物理和薛定谔方程。在这篇综述中,我们首先分析了电路拉普拉斯和晶格哈密顿的相似性,介绍了基于经典电路的拓扑物理。随后,我们综述了基于电路的量子启发信息处理的研究进展,包括讨论经典电路的拓扑量子计算、基于经典电路的量子行走、基于经典电路的量子组合逻辑、快速量子搜索的电路实现、单元变换的实现等。
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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