利用厂商OD曲线计算激光眼镜有效OD和VLT

International Laser Safety Conference Pub Date : 2019-07-12 DOI:10.2351/1.5118655

I. Makasyuk, M. Woods

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引用次数: 0

摘要

在常用的近红外光谱范围内，超短激光脉冲(100fs以下)的光谱带宽可达几十纳米。在选择使用超短脉冲的激光眼镜时，“有效”光密度(ODeff)应由滤光片透射光谱曲线与激光脉冲光谱的卷积来计算。我们给出了在不同脉冲持续时间下选定的商用眼镜滤光片的ODeff曲线(ODeff与波长)的模型计算，假设激光光谱为高斯。可见透光性(VLT)是激光眼镜的另一个重要特性。我们使用Z136.7-2008标准中对光透射的定义，通过将制造商的透射曲线与光效率函数和CIE标准光源C的光谱进行卷积来计算VLT值，该光源C近似于可见光范围内的平均日光。然后，我们将计算出的VLT与制造商提供的VLT进行比较，并将我们使用测光表和标准实验室荧光灯或LED照明提供的光源进行的“实验室VLT”测量进行比较。在常用的近红外光谱范围内，超短激光脉冲(100fs以下)的光谱带宽可达几十纳米。在选择使用超短脉冲的激光眼镜时，“有效”光密度(ODeff)应由滤光片透射光谱曲线与激光脉冲光谱的卷积来计算。我们给出了在不同脉冲持续时间下选定的商用眼镜滤光片的ODeff曲线(ODeff与波长)的模型计算，假设激光光谱为高斯。可见透光性(VLT)是激光眼镜的另一个重要特性。我们使用Z136.7-2008标准中对光透射的定义，通过将制造商的透射曲线与光效率函数和CIE标准光源C的光谱进行卷积来计算VLT值，该光源C近似于可见光范围内的平均日光。然后，我们将计算出的VLT与制造商提供的VLT以及“la…

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Calculating laser eyewear effective OD and VLT using manufacturer OD curves

Spectral bandwidth (SB) of ultrashort laser pulses (under 100 fs) in commonly used near-IR range can be tens of nanometers. When selecting laser eyewear for use with ultrashort pulses, the “effective” optical density (ODeff) should be calculated from a convolution of the spectral curve for the filter transmission with the spectrum of the laser pulse. We present model calculations of ODeff curves (ODeff versus wavelength) for selected commercial eyewear filters at different pulse durations, assuming a gaussian laser spectrum.Visible light transmission (VLT) is another important laser eyewear characteristic. We use the definition for photopic luminous transmission in the Z136.7-2008 standard to calculate VLT values by convoluting the manufacturer transmission curves with the photopic luminous efficiency function and the spectrum for a CIE Standard Illuminant C source that approximates average daylight over the visible range. We then compare the calculated VLT with what the manufacturers provide and with “lab VLT” measurements that we have made using a light meter and a source provided by standard lab fluorescent or LED lighting.Spectral bandwidth (SB) of ultrashort laser pulses (under 100 fs) in commonly used near-IR range can be tens of nanometers. When selecting laser eyewear for use with ultrashort pulses, the “effective” optical density (ODeff) should be calculated from a convolution of the spectral curve for the filter transmission with the spectrum of the laser pulse. We present model calculations of ODeff curves (ODeff versus wavelength) for selected commercial eyewear filters at different pulse durations, assuming a gaussian laser spectrum.Visible light transmission (VLT) is another important laser eyewear characteristic. We use the definition for photopic luminous transmission in the Z136.7-2008 standard to calculate VLT values by convoluting the manufacturer transmission curves with the photopic luminous efficiency function and the spectrum for a CIE Standard Illuminant C source that approximates average daylight over the visible range. We then compare the calculated VLT with what the manufacturers provide and with “la...

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International Laser Safety Conference

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