Nondemolition filters for quantum systems

Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228) Pub Date : 2001-12-04 DOI:10.1109/CDC.2001.980114

J. W. Clark, T. Tarn

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Abstract

The paper is concerned with the formulation of a continuous-time quantum-mechanical filter. In a previous paper (Ong et al., 1984), the invertibility of a quantum system coupled to a weak time-dependent classical field was studied. The physical system is modeled as an infinite-dimensional bilinear system. Necessary and sufficient conditions of invertibility were derived under the assumption that the output observable is a quantum nondemolition observable (QNDO), characterized by the classical property that its expected value is equal to its measured value. In this paper necessary and sufficient conditions are developed for an observable to qualify as a QNDO; if in addition the criteria for invertibility are met, the given observable defines a quantum nondemolition filter (QNDF). The associated filtering algorithm thus separates cleanly into the choice of output observable (a QNDO) and the choice of procedure for processing the measurement outcomes. This approach has the advantage over previous schemes that no optimization is necessary. Applications to demodulation of optical signals and to the detection and monitoring of gravitational waves are envisioned.

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量子系统的非拆除滤波器

本文讨论了一个连续时间量子力学滤波器的公式。在之前的一篇论文(Ong et al.， 1984)中，研究了耦合于弱时相关经典场的量子系统的可逆性。物理系统被建模为一个无限维双线性系统。假设输出观测值为量子非拆除观测值(QNDO)，具有期望值等于实测值的经典性质，推导了可逆性的充分必要条件。本文给出了观测值作为QNDO的充分必要条件;另外，如果满足可逆性的条件，则给定的观测值定义了一个量子不拆除滤波器(QNDF)。相关的过滤算法因此被清晰地分为输出可观察(QNDO)的选择和处理测量结果的过程的选择。与以前的方案相比，这种方法的优点是不需要进行优化。应用于光信号的解调和引力波的探测和监测的设想。

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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Proceedings of the 40th IEEE Conference on Decision and Control (Cat. No.01CH37228)

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