中红外高功率激光系统强光元件热损伤特性

依托闭腔式氟化氘中红外高能激光器,测量了元件表面污染物在连续波高能激光(3.16 k W/cm2)辐照下的温度,测量发现污染物在1s内达到了热平衡,温度维持在1 720 K;建立了描述强光辐照下污染物热平衡过程的物理模型,分析了污染物导致强光元件热损伤的物理机制;研究发现污染物的尺度对强光元件的热损伤具有重要影响.对于中红外高反射强光光学元件,若污染物的尺度小于20μm一般不会造成强光元件的损伤,若污染物的尺度大于200μm一般会导致强光元件的损伤.研究结果对于提高强光元件的抗损伤性能,保障中红外高能激光系统稳定运行具有重要意义....

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Bibliographic Details
Published in红外与毫米波学报 Vol. 35; no. 6; pp. 741 - 747
Main Author 韩凯 闫宝珠 许晓军 刘泽金
Format Journal Article
LanguageChinese
Published 国防科学技术大学光电科学与工程学院,湖南长沙,410073 2016
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ISSN1001-9014
DOI10.11972/j.issn.1001-9014.2016.06.017

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Summary:依托闭腔式氟化氘中红外高能激光器,测量了元件表面污染物在连续波高能激光(3.16 k W/cm2)辐照下的温度,测量发现污染物在1s内达到了热平衡,温度维持在1 720 K;建立了描述强光辐照下污染物热平衡过程的物理模型,分析了污染物导致强光元件热损伤的物理机制;研究发现污染物的尺度对强光元件的热损伤具有重要影响.对于中红外高反射强光光学元件,若污染物的尺度小于20μm一般不会造成强光元件的损伤,若污染物的尺度大于200μm一般会导致强光元件的损伤.研究结果对于提高强光元件的抗损伤性能,保障中红外高能激光系统稳定运行具有重要意义.
Bibliography:mid-infrared high energy laser system, thermal damage, critical size, closed-cavity laser
31-1577/TN
Based on the closed-cavity mid-infrared laser, the temperature of the contaminant was meas- ured when it was irradiated by a cw high energy laser with power intensity 3.16 kW/cm^2. It was found that the contaminant achieves thermal equilibrium in a second and then the temperature stays at 1720 K. A physical model was established to describe the process of the thermal equilibrium. The mechanism of the mirror' s thermal damage was analyzed. It shows that the contaminant size plays an important role in the thermal damage of the optical mirror. Only when the contaminant size is smaller than a critical size ( -20μm), the contaminant may reach thermal equilibrium and the optical mirror work well in the high energy laser system. If the contaminant size is quite large ( 〉 200μm), the optical mirror will be damaged under the irradiation of high energy laser. The results are of great help for improving the anti-damage cap
ISSN:1001-9014
DOI:10.11972/j.issn.1001-9014.2016.06.017