双波长显微分光光度法。四、新的解决方案。

M L MENDELSOHN
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引用次数: 16

摘要

考虑到自动双波长显微分光光度法的发展潜力,本文提出了一种新的双波长分光光度法。与之前的Ornstein和Patau版本不同,新方法改变了光度场的面积,以最大化两个波长的分布误差之间的关系。用传统的光度学术语来陈述这种分布误差关系,最大值的条件是通过对场大小取一阶导数并使其等于零来定义的。这个运算提供了两个方程;一个是两个波长的透光率,第二个是用一个波长的透光率表示场中发色团的相对量。用第一个方程驱动伺服机构,设定适当的场大小,然后可以从第二个方程直接连续地获得所需的答案。结果在理论上与先前的方法相同,但该技术更适合于电子计算。
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The two-wavelength method of microspectrophotometry. IV. A new solution.

In connection with the potential development of automatic two-wavelength microspectrophotometry, a new version of the two-wavelength method has been formulated. Unlike its predecessors, the Ornstein and Patau versions, the new method varies the area of the photometric field seeking to maximize a relationship between distributional errors at the two wavelengths. Stating this distributional error relationship in conventional photometric terms, the conditions at the maximum are defined by taking the first derivative with respect to field size and setting it equal to zero. This operation supplies two equations; one relates the transmittances at the two wavelengths, and a second states the relative amount of chromophore in the field in terms of transmittance at one wavelength. With the first equation to drive a servomechanism which sets the appropriate field size, the desired answer can then be obtained directly and continuously from the second equation. The result is identical in theory with those of the earlier methods, but the technique is more suitable for electronic computing.

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