van den Berg T J, Spekreijse H
The Netherlands Ophthalmic Research Institute, University of Amsterdam, The Netherlands.
Vision Res. 1997 Jan;37(2):249-53. doi: 10.1016/s0042-6989(96)00120-4.
Available literature on the spectral transmittance of the eye media in the infrared (IR) is insufficiently accurate to estimate the deposited doses, e.g. in view of light damage risks. Analysis of the data of Boettner and Wolter [Investigative Ophthalmology and Visual Science, 1, 776-783 (1962)] for cornea, anterior chamber, lens and vitreous separately, shows that they can be explained on the basis of the pure water content. The transmittance spectrum of Geeraets et al. [Archives of Ophthalmology, 64, 606-615 (1960)] for all eye media combined is found to be impossible. It is concluded that in the near-IR, light losses in the eye media are best estimated with the absorption coefficient for pure water. A table is given from 700-2500 nm in steps of 10 nm.
关于眼睛介质在红外(IR)波段的光谱透过率的现有文献,其准确性不足以估算沉积剂量,例如考虑到光损伤风险。分别分析博伊特纳和沃尔特[《眼科研究与视觉科学》,1,776 - 783(1962)]关于角膜、前房、晶状体和玻璃体的数据表明,这些数据可以基于纯水含量来解释。发现吉勒茨等人[《眼科学档案》,64,606 - 615(1960)]给出的所有眼睛介质综合的透过率光谱是不合理的。得出的结论是,在近红外波段,眼睛介质中的光损失最好用纯水的吸收系数来估算。给出了一个从700 - 2500纳米、步长为10纳米的表格。
