Application of superconducting quantum interferometer in quantum computer development

Quantum bio-informatics V : proceedings of the quantum bio-informatics 2011, Tokyo University of Science, Japan, 7-12 March 2011. Quantum Bio-Informatics (Conference) (5th : 2011 : Tokyo, Japan) Pub Date : 2008-03-03 DOI:10.1117/12.801918

A. I. Golovashkin, A. L. Karuzskiy, A. A. Orlikovskiy, V. Privezentsev, A. M. Tshovrebov

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Abstract

Various variants of use high-sensitivity superconducting quantum interferometers (SQUID) in problems closely connected with development of a quantum computer are considered. 1.Hardware realization of a method of definition of midget concentration of the paramagnetic centers, based on measurement of their magnetization SQUID in a mode of modulation microwave saturation of magnetic sublevels is offered. The method will allow make testing of semi-conductor materials necessary for creation of a spin solid-state quantum computer. 2.The opportunity of application SQUID for reading a condition of the quantum register, based on the quantum-statistical mechanism, allowing registered a state of single spin, is considered. 3.The circuit super low noise the quantum electrometer, based on use SQUID is offered as a measuring instrument of magnetization of spin system in which exchange interaction is adjusted by potential on in parallel connected managing electrodes (on type a spin ensemble computer).

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超导量子干涉仪在量子计算机开发中的应用

在与量子计算机发展密切相关的问题中，考虑了高灵敏度超导量子干涉仪(SQUID)的各种变体。1.提出了一种基于磁亚电平调制微波饱和模式下顺磁中心磁化强度测量的顺磁中心微浓度定义方法的硬件实现。该方法将允许对半导体材料进行必要的测试，以创建自旋固态量子计算机。2.考虑了应用SQUID读取量子寄存器条件的可能性，基于量子统计机制，允许记录单自旋状态。3.提出了一种基于SQUID的电路超低噪声量子静电计，作为一种测量自旋系统磁化强度的仪器，该系统的交换相互作用是通过电位并联管理电极(on型自旋系综计算机)来调节的。

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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Quantum bio-informatics V : proceedings of the quantum bio-informatics 2011, Tokyo University of Science, Japan, 7-12 March 2011. Quantum Bio-Informatics (Conference) (5th : 2011 : Tokyo, Japan)

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