量子不破坏耦合协议中的平行多边形进化

Оптика и спектроскопия Pub Date : 2023-01-01 DOI:10.21883/os.2023.07.56130.4902-23

Е.Н. Башмакова, Е.А. Вашукевич, Т Ю Голубева

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引用次数: 0

摘要

迄今为止，双量子位量子逻辑门已经成为量子计算的重要组成部分。研究它们的实现方法是各种量子光学和信息应用的重要实际问题。本文考虑了原子系综与轨道角动量的多模光之间的多模量子不破坏相互作用的协议，并分析了该协议在离散变量计算中的适用性。我们建立了一个多模相互作用的哈密顿量，并根据驱动场的结构分析了场和原子变量的动力学。我们详细讨论了在不同驱动场的轨道角动量值下，在一组原子和场模式上分离量子比特非相互作用子系统的过程。该过程有助于将所考虑的协议简化为双量子位封闭系统的并行演化。

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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Параллельная многокубитная эволюция в протоколе квантового неразрушающего взаимодействия

To date, two-qubit quantum logic gates have become an essential part of quantum computing. The study of methods for their implementation is an important practical problem for various quantum optical and information applications. In this paper, we have considered a protocol for multimode quantum non demolition interaction between an atomic ensemble and multimode light with orbital angular momentum in order to analyze the applicability of this protocol in discrete variables computing. We have developed a multimode interaction Hamiltonian and analyzed the dynamics of field and atomic variables depending on the structure of the driving field. We discuss in detail the procedure for separating qubit noninteracting subsystems on a set of atomic and field modes for various values of the orbital angular momentum of the driving field. Such a procedure helps to reduce the considered protocol to the parallel evolution of two-qubit closed systems.

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Оптика и спектроскопия

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