The Fundamental Noise Limit of Linear Amplifiers

H. Heffner
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引用次数: 139

Abstract

If the uncertainty principle of quantum mechanics is applied to the process of signal measurement, two theorems relating to amplifier noise performance can be deduced. First, it can be shown that it is impossible to construct a linear noiseless amplifier. Second, if the amplifier is characterized as having additive white Gaussian noise, it can be shown that the minimum possible noise temperature of any linear amplifier is T.= In 2 -IIG -hv 1-1/ IG k In the limit of high gain G this expression reduces to that previously derived for the ideal maser and parametric amplifier. It is shown that the minimum noise amplifier does not degrade the signal but rather allows the use of an inaccurate detector to make measurements on an incoming signal to the greatest accuracy consistent with the uncertainty principle.
线性放大器的基本噪声极限
如果将量子力学的测不准原理应用到信号测量过程中,可以推导出两个与放大器噪声性能有关的定理。首先,它可以证明,它是不可能构建一个线性无噪声放大器。其次,如果放大器的特征是具有加性高斯白噪声,则可以证明,任何线性放大器的最小可能噪声温度为t =在2 -IIG -hv - 1-1/ IG k中,在高增益G的极限下,该表达式简化为先前导出的理想脉泽和参数放大器的表达式。结果表明,最小噪声放大器不会降低信号,而是允许使用不准确的检测器对输入信号进行测量,以符合不确定原理的最大精度。
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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