Resolution Limits of Analyzers and Oscillatory Systems

E. Corliss
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引用次数: 6

Abstract

This paper considers the resolution limits of those analyzers and oscillatory systems whose performance may be represented by a second-order differential equation. The “signal uncertainty” product Δf·Δt is shown to be controlled by the ability of a system to indicate changes in energy content. The discussion refers the functioning of the system to a signal space whose coordinates are energy, frequency, and time. In this signal space, the product of the resolution limits, U = (ΔE/E0) (Δf/f0) (Δt/T0) is the volume of a region within which no change of state in the system may be observed. Whereas the area element Δf·Δt is freely deformable, no operations upon either Δf or Δt can further the reduction of the energy resolution limit. Thus U is irreducibly fixed by the limiting value of ΔE/E0. By considering the effects of noise upon ΔE/E0, and thus upon U, the paper demonstrates the rise of statistical features as signal-to-noise ratios decrease. Functional relationships derived from ΔE/E0 and U are tabulated. These equations facilitate computation of the limits of observable changes of state in a system, and they provide guidance for the design of experiments to apportion the uncertainties of measurement of transient phenomena as advantageously as possible. A reference bibliography and appendices giving somewhat detailed proofs are included.
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分析仪和振荡系统的分辨率极限
本文考虑了性能可以用二阶微分方程表示的分析仪和振荡系统的分辨率极限。“信号不确定度”产品Δf·Δt显示由系统指示能量含量变化的能力控制。讨论将系统的功能描述为一个以能量、频率和时间为坐标的信号空间。在这个信号空间中,分辨率极限U = (ΔE/E0) (Δf/f0) (Δt/T0)的乘积是一个区域的体积,在这个区域内,系统中没有状态变化可以被观察到。而面积元Δf·Δt是可自由变形的,对Δf或Δt的任何操作都不能进一步降低能量分辨率极限。因此U被ΔE/E0的极限值不可约地固定。通过考虑噪声对ΔE/E0的影响,从而对U的影响,本文证明了随着信噪比的降低,统计特征的增加。由ΔE/E0和U导出的函数关系表。这些方程有助于计算系统中可观察到的状态变化的极限,并为实验设计提供指导,以尽可能有利地分配瞬态现象测量的不确定性。参考书目和附录给出了一些详细的证明。
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