基于颜色、视角和吸收光谱的白云母片的相关性。

Stanley Ruthberg, Mary W Barnes, Ralph H Noyce
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引用次数: 0

摘要

对颜色、视光学角和吸收光谱(0.3 至 16μ λ)的详细实验研究表明,云母云母存在基本的化学和结构差异。颜色鉴别以分光光度计测量为基础。定义了一种定量评估吸收带活性的方法,以便比较单个试样光谱内的单带和多带强度以及不同试样光谱内的单带和多带强度。0.3 至 1μ λ 区域有三种基本光谱类型,由各种弱线和吸收区域组成,这些弱线和吸收区域位于 0.32μ 附近的深吸收边缘的底部。在这三种光谱类型中,一种与红宝石云母有关,另外两种分别与深绿色和浅绿色云母有关。报告了许多谱线和谱带的活动情况。结果表明,表观视轴角与深带边缘的位置有关,但有一类红宝石标本除外,它们显示出异常值。根据 0.44、0.49 和 0.58μ 处的吸收系数,确定了白云母薄片的特征。可见光 λ 范围内的某些线与近红外某些波段之间存在直接联系,而中红外一些波段的活动则与颜色相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Correlation of Muscovite Sheet Mica on the Basis of Color, Apparent Optic Angle, and Absorption Spectrum.

A detailed experimental study of color, apparent optic angle, and absorption spectrum (0.3 to 16μ of λ) indicates that there are basic chemical and structural differences in muscovite micas. Color identification is based upon spectrophotometer measurements. A method for quantitative evaluation of absorption band activity is defined so that single and multiple band intensities within the spectrum of an individual specimen and within spectra of different specimens can be compared. Three basic spectral types exist for the 0.3 to 1μ λ region which are comprised of various weak lines and absorption regions lying along the base of a deep absorption edge near 0.32μ. Of the three spectral types, one is associated with ruby micas, while the other two are associated with dark green and light green micas. The activities of numerous lines and bands are reported. It is shown that apparent optic axial angle is related to the position of the deep band edge except for a certain class of ruby specimens which show anomalous values. A definitive characterization of muscovite sheet is formulated in terms of the absorption coefficients at 0.44, 0.49, and 0.58μ. Direct associations are shown between certain lines in the visible λ range and certain bands in the near infrared, while the activities of a number of bands in the middle infrared are correlated to color.

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