漫反射金膜在1.064μm波长处的反射特性 -

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漫反射金膜在1.064μm波长处的反射特性

doi:10.3788/CO.20191204.0913

西北核技术研究所与物质相互作用国家重点实验室, 西安 710024

基金项目:

国防重点预研项目211111701

详细信息

作者简介:
吴勇(1979-), 男, 湖北钟祥人, 博士, 副研究员, 2003年于西安交通大学获得学士学位, 2006年、2018年于西北核技术研究所分别获得硕士、博士学位, 主要从事参数测试方面的研究。E-mail:wuyong@nint.ac.cn
赵军(1955-), 男, 山东济南人, 博士, 研究员, 博士生导师, 2000年于北京航空航天大学获得硕士学位, 2004年于国防科技大学获得博士学位, 主要从事及应用方面的研究。E-mail:zhao2k3@sina.com

中图分类号:TN247
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出版历程
- 收稿日期:2018-10-25
- 修回日期:2018-11-26
- 刊出日期:2019-08-01

Reflective characteristics for diffusing gold films at a wavelength of 1.064 μm

State Key Laboratory of Laser Interaction with Matter, Northwest Institute of Nuclear Technology, Xi'an 710024, China

Funds:

National Defense Key Pre-research Project211111701

More Information

Corresponding author:ZHAO Jun, E-mail:zhao2k3@sina.com

摘要

摘要:本文研究了强辐照下漫反射金膜在近红外波段的反射特性，建立了漫反射金膜表面反射率在线测试系统，得到了不同参数辐照下膜层表面反射率变化曲线。检测了金膜表面氧化产物的主要成分，给出了氧化产物的生成机理。根据氧化理论和单层膜反射理论建立了金膜表面反射率变化计算模型，并基于该模型分析了膜层氧化对辐照温升的影响。结果表明：强辐照下漫反射金膜表面生成了一层光学薄膜，组分为NiO，生成速率满足对数定律；NiO薄膜对入射的吸收是金膜表面反射率下降的主要原因，而且辐照光强越强膜层氧化越快。
- /
- 漫反射金膜/
- 高温氧化/
- NiO film/
- 扩散
Abstract:To investigate the reflective characteristics of diffusing gold film irradiated by high power lasers, an online testing system was set up to deduce the films' reflectivity variation with different laser irradiation parameters. The elements of the oxidation products were analyzed and an oxidation mechanism for a diffusing gold film was proposed. A numerical model for the reflectivity of a gold plating film under high power laser radiation was built using oxidation theory and single-layer reflection theory. With this model, the influence of film oxidation on the temperature rise from laser irradiation was analyzed. The results show that the oxidation product is NiO, the dynamic curve of the oxidation of the gold film follows the law of logarithms and the degradation of the reflectivity of the gold film results from the absorption-enhancement effects induced by the NiO film. Moreover, the stronger the intensity of the irradiation, the faster the oxidation of the film.
- laser/
- diffusing gold film/
- high temperature oxidation/
- NiO film/
- diffusion

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图 1测量原理图

Figure 1.Schematic diagram of measurement principle

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图 2漫反射金膜辐照前后图片

Figure 2.Images of diffusing gold film before and after irradiated by laser

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图 3探测器输出电压及温度变化曲线

Figure 3.Time dependence of voltage and temperature

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图 4EDS能谱图

Figure 4.EDS spectra image

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图 5氧化膜的拉曼光谱

Figure 5.Raman spectrum of the oxidation film

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图 6Ni原子扩散物理模型

Figure 6.Physical model of Ni atom diffusion

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图 7反射率变化曲线的理论模拟结果与实验结果

Figure 7.Theoretical and experimental results of surface reflectivity of the plating Au film

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图 8辐照光强1 000 W/cm²条件下金膜温度变化曲线

Figure 8.Temperature curves of Au film under the radiation intensity of 1 000 W/cm²

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图 9辐照光强1 000 W/cm²条件下NiO薄膜厚度变化

Figure 9.NiO film thickness variation under the radiation intensity of 1 000 W/cm²

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图 10辐照光强1 000 W/cm²条件下金膜表面反射率

Figure 10.Reflectivity variation of Au film under the radiation intensity of 1 000 W/cm²

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图 11不同辐照光强下温升曲线

Figure 11.Effects of the radiation intensity on temperature variation

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图 12不同辐照光强下反射率变化曲线

Figure 12.Effects of the radiation intensity on reflectivity variation

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