Investigation of Spectral and Optical Properties of Color Polarization LensesInvestigation of Spectral and Optical Properties of Color Polarization LensesInvestigation of Spectral and Optical Properties of Color Polarization Lenses

Journal of Physical Chemistry and Functional Materials Pub Date : 2023-10-06 DOI:10.54565/jphcfum.1324779

G. Ateş

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Abstract

Polarized lenses are recommended because exposure to intense sunlight damages cellular function and photoreceptor structures in the eyes. Polarized lenses filter all wavelengths of UV radiation and most of the reflected glare due to strong reflections depending on the angle of incidence of sunlight and environmental factors. The wavelength of mineral glass in the horizontal and vertical direction (~550nm) is 16.64% for (CF1) and 13.21% for (CF2). There is a sudden drop of 27.87 at 729nm in CF2 and a sudden increase to 58.80 at 730nm in CF1. Absorbance values at 730nm are 0.21 with a decrease in AF1 and 0.54 with an increase in AF2. CF2 is polarized. To determine how the structure of the lens material affects light transmittance and absorbance, the light transmittances of smoked mineral and organic lenses of the same color are 16.64 for the mineral lens and 22.47 for the organic lens at (~550nm) wavelength. Maximum transmittance is 81.25 for mineral lens and 85.73 for organic lens. For night vision, at (~507nm) wavelength, it is 19.35 for mineral lens and 25.00 for organic lens. At (~550nm) wavelength, absorbance values are 0.78 for mineral lens and 0.62 for organic smoked lens. In the study, the effect of color factor on the light transmittance and absorption of organic smoked, brown and green polarized lenses was investigated. Light transmittance at 550 nm wavelength is 22.47 in smoked, 13.48 in brown and 14.32 in green. Absorbance at 550 nm wavelength is 0.62 in smoked, 0.94 in brown and 0.82 in green lens. Since dark lenses do not allow high light transmission, smoked color should be chosen for good vision in the visible light region. Brown color should be preferred if dark glasses should be used in situations where bright light is intense. In the 507nm wavelength of color polarized lenses, smoked is 25.00, brown is 11.45 and green is 16.94. Smoked should be chosen for night vision.

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彩色偏光透镜的光谱和光学特性研究彩色偏光透镜的光谱和光学特性研究彩色偏光透镜的光谱和光学特性研究

建议使用偏光镜片，因为强烈的阳光会损害眼睛的细胞功能和感光结构。偏光镜片可过滤所有波长的紫外线辐射和大部分反射眩光，反射眩光的强弱取决于太阳光的入射角度和环境因素。矿物玻璃在水平和垂直方向上的波长（~550 纳米），(CF1) 为 16.64%，(CF2) 为 13.21%。在 729 纳米波长处，CF2 的吸收率突然下降 27.87，而在 730 纳米波长处，CF1 的吸收率突然上升至 58.80。730 纳米波长处的吸光值为 0.21，AF1 下降，AF2 上升，吸光值为 0.54。CF2 已偏振。为了确定镜片材料的结构如何影响透光率和吸光度，在波长（约 550 纳米）相同颜色的烟熏矿物镜片和有机镜片中，矿物镜片的透光率为 16.64，有机镜片的透光率为 22.47。矿物镜片的最大透光率为 81.25，有机镜片为 85.73。就夜视而言，在（~507 纳米）波长下，矿物透镜的透光率为 19.35，有机透镜为 25.00。在（~550 纳米）波长下，矿物镜片的吸光度值为 0.78，有机烟熏镜片的吸光度值为 0.62。本研究调查了颜色因素对有机烟熏镜片、棕色镜片和绿色偏光镜片透光率和吸收率的影响。在 550 纳米波长下，烟熏镜片的透光率为 22.47，棕色镜片为 13.48，绿色镜片为 14.32。波长为 550 nm 的吸收率为：烟熏镜片 0.62，棕色镜片 0.94，绿色镜片 0.82。由于深色镜片透光率不高，因此应选择烟熏色镜片，以便在可见光区域有良好的视力。如果在强光环境下使用深色眼镜，则应选择棕色镜片。在 507nm 波长的彩色偏光镜片中，烟熏色为 25.00，棕色为 11.45，绿色为 16.94。夜视镜片应选用烟熏色。

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Journal of Physical Chemistry and Functional Materials

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