计算机建模以支持具有不同峰值功率和脉冲持续时间的脉冲序列的激光安全性分析

International Laser Safety Conference Pub Date : 2019-07-12 DOI:10.2351/1.5118564

Mathieu Jean, Sebastian Kotzur, N. Heussner, K. Schulmeister, A. Frederiksen

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引用次数: 4

摘要

国际激光安全标准IEC 60825-1 Edition 3.0和标准ANSI Z136.1-2014都没有提供关于如何应用脉冲减小系数C5的具体规则。CP)到不规则脉冲序列，具有变化的峰值功率和变化的脉冲持续时间。在没有具体指导的情况下，分析必须基于限制性方法进行，例如计算所有脉冲并赋予它们相同的权重，即使是峰值功率较小和能量较低的脉冲。在ILSC 2017上展示的初步工作重点是具有不同峰值功率的脉冲序列。目前的研究提供了如何分析不规则脉冲模式的指导-在峰值功率和脉冲持续时间方面-以较少的限制方式。国际激光安全标准IEC 60825-1 Edition 3.0和标准ANSI Z136.1-2014都没有提供关于如何应用脉冲减小系数C5的具体规则。CP)到不规则脉冲序列，具有变化的峰值功率和变化的脉冲持续时间。在没有具体指导的情况下，分析必须基于限制性方法进行，例如计算所有脉冲并赋予它们相同的权重，即使是峰值功率较小和能量较低的脉冲。在ILSC 2017上展示的初步工作重点是具有不同峰值功率的脉冲序列。目前的研究提供了如何分析不规则脉冲模式的指导-在峰值功率和脉冲持续时间方面-以较少的限制方式。

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Computer modelling to support laser safety analysis of pulse trains with varying peak power and pulse duration

Neither the international laser safety standard IEC 60825-1 Edition 3.0 nor the standard ANSI Z136.1-2014 provide specific rules on how to apply the pulse reduction factor C5 (resp. CP) to irregular pulse trains, featuring both varying peak power as well as varying pulse duration. Without specific guidance, the analysis has to be performed based on restrictive approaches, such as counting all pulses and giving them the same weight, even the ones with smaller peak power and lower energy. Preliminary work, presented at the ILSC 2017, focused on pulse trains with varying peak power. The present study provides guidance on how to analyze irregular pulse patterns - both in terms of peak power and pulse duration - in a less restrictive way.Neither the international laser safety standard IEC 60825-1 Edition 3.0 nor the standard ANSI Z136.1-2014 provide specific rules on how to apply the pulse reduction factor C5 (resp. CP) to irregular pulse trains, featuring both varying peak power as well as varying pulse duration. Without specific guidance, the analysis has to be performed based on restrictive approaches, such as counting all pulses and giving them the same weight, even the ones with smaller peak power and lower energy. Preliminary work, presented at the ILSC 2017, focused on pulse trains with varying peak power. The present study provides guidance on how to analyze irregular pulse patterns - both in terms of peak power and pulse duration - in a less restrictive way.

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International Laser Safety Conference

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