近红外超快激光脉冲对眼组织的非线性光学危害

International Laser Safety Conference Pub Date : 2019-07-12 DOI:10.2351/1.5118571

Adam R. Boretsky, Joseph E. Clary, G. Noojin, Dixie J. Burner, B. Rockwell

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引用次数: 3

摘要

超快激光器能够产生极高的峰值功率，并诱导可能对敏感的眼组织有害的非线性光学现象。从超快近红外(NIR)激光器产生宽带超连续光是特别感兴趣的，因为它对角膜和视网膜都有潜在的破坏性影响。新鲜切除的猪眼和人工模型眼被证明是研究非线性光学现象的合适系统，因为它们的大小和光学特性与人眼相似。一个标称脉冲为100飞秒的可调谐光参量放大器(OPA)产生1200-1500 nm范围内的所有激光曝光。一个基于纤维的光谱仪通过巩膜上的一个小切口进入切除的猪眼后部，并放置在视网膜平面上，测量了近红外飞秒激光脉冲的光谱展宽。在多个脉冲能量下观察超连续光谱光的光谱分布变化，并动态监测光束聚焦相对于角膜表面位置的变化。随着超快激光器在生命科学、电信、工业加工和生物医学应用中越来越普遍，可能需要进一步考虑非线性光学危害，以确保其安全使用。超快激光器能够产生极高的峰值功率，并诱导可能对敏感的眼组织有害的非线性光学现象。从超快近红外(NIR)激光器产生宽带超连续光是特别感兴趣的，因为它对角膜和视网膜都有潜在的破坏性影响。新鲜切除的猪眼和人工模型眼被证明是研究非线性光学现象的合适系统，因为它们的大小和光学特性与人眼相似。一个标称脉冲为100飞秒的可调谐光参量放大器(OPA)产生1200-1500 nm范围内的所有激光曝光。一个基于纤维的光谱仪通过巩膜上的一个小切口进入切除的猪眼后部，并放置在视网膜平面上，测量了近红外飞秒激光脉冲的光谱展宽。在多个脉冲能量下观察到超连续光谱的变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Non-linear optical hazards from near-infrared ultrafast laser pulses in ocular tissue

Ultrafast lasers are capable of generating extremely high peak powers and inducing non-linear optical phenomena that may be hazardous to sensitive ocular tissue. The generation of broadband supercontinuum light from ultrafast near infrared (NIR) lasers is of particular interest because of the potential damaging effects on both the cornea and retina. Freshly excised porcine eyes and an artificial model eye proved to be suitable systems to investigate non-linear optical phenomena due to the similarity in size and optical properties to the human eye. A tunable optical parametric amplifier (OPA) with a nominal pulse with of 100 femtoseconds generated all laser exposures in the 1200-1500 nm range. A fiber-based spectrometer introduced into the back of excised porcine eyes through a small incision in the sclera and placed at the retinal plane measured spectral broadening of the NIR femtosecond laser pulses. Changes in the spectral profile of the supercontinuum light were observed at multiple pulse energies and monitored dynamically as the position of the beam focus was adjusted with respect to the corneal surface. Further consideration of non-linear optical hazards may be required to ensure the safe use of ultrafast lasers as they become more prevalent in life sciences, telecommunications, industrial processing, and biomedical applications.Ultrafast lasers are capable of generating extremely high peak powers and inducing non-linear optical phenomena that may be hazardous to sensitive ocular tissue. The generation of broadband supercontinuum light from ultrafast near infrared (NIR) lasers is of particular interest because of the potential damaging effects on both the cornea and retina. Freshly excised porcine eyes and an artificial model eye proved to be suitable systems to investigate non-linear optical phenomena due to the similarity in size and optical properties to the human eye. A tunable optical parametric amplifier (OPA) with a nominal pulse with of 100 femtoseconds generated all laser exposures in the 1200-1500 nm range. A fiber-based spectrometer introduced into the back of excised porcine eyes through a small incision in the sclera and placed at the retinal plane measured spectral broadening of the NIR femtosecond laser pulses. Changes in the spectral profile of the supercontinuum light were observed at multiple pulse energies and ...

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International Laser Safety Conference

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