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Scaling of Laser-induced Contamination Growth at 266 nm and 355 nm

机译：激光诱导的污染增长在266nm和355nm处进行缩放

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The growth of laser-induced contamination (LIC) on optical components in extraterrestrial missions is a known issue especially for the UV spectral region. The Laser Zentrum Hannover e.V. is responsible for the development of a pulsed laser-system operating at a wavelength of 266 nm for the ExoMars mission and for the qualification of used optics and materials regarding LIC. In this context, toluene was utilized which is an often used model contaminant in LIC studies. Test cycles based on the application of the two UV wavelengths 355 nm and 266 nm on fused silica substrates and AR-coated optics are conducted and the observed contamination effects are compared. This scaling allows for a rough estimate of the destructive influence of LIC on space optics degradation at 266 nm. Further tests will be performed with materials integrated into the ExoMars-laser-head under near-operation environmental conditions.

机译：激光诱导的污染（LIC）在外星任务中的光学组分上的生长是尤其是UV光谱区域的已知问题。激光Zentrum Hannover E.v.负责开发在266nm的波长为266nm的脉冲激光系统的开发，以进行展开使命以及用于LIC的二手光学和材料的资格。在这种情况下，利用甲苯，其是在LIC研究中经常使用的模型污染物。对熔融二氧化硅基板和Ar涂层光学施加两个UV波长355nm和266nm的基于施加的测试循环并进行比较观察到的污染效果。该缩放允许粗略估计LIC在266nm处降低空间光学劣化的破坏性影响。将在近期环境条件下将进一步的测试用集成到外部激光头的材料进行。

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来源
《Annual laser damage symposium》|2015年|xxix v. p.|共7页
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作者
M. Liessmann; L. Jensen; I. Balasa; M. Hunnekuhl; A. Buettner; P. Wessels; J. Neumann; D. Ristau;
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原文格式 PDF
正文语种
中图分类激光技术、微波激射技术;
关键词
Laser induced contamination; space qualification; ExoMars mission;

机译：激光诱导污染;空间资格;屈服使命;

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1. Laser-induced bulk damage in various types of vitreous silica at 1064, 532, 355, and 266 nm: evidence of different damage mechanisms between 266-nm and longer wavelengths [J] . Nobu Kuzuu, Kunio Yoshida, Hidetsugu Yoshida Applied optics . 1999,第12期

机译：激光在1064、532、355和266 nm波长下对各种类型的石英玻璃造成的整体损伤：在266 nm和更长波长之间的不同损伤机理的证据
2. Fragmentation of pure nitromethane in the gas phase and a collision-free system at laser interactions of 532 nm, 355 nm, and 266 nm [J] . Martinez D., Guerrero A., Prieto E., International journal of mass spectrometry . 2019,第期

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3. Study on continuous (254 nm) and pulsed UV (266 and 355 nm) lights on BVD virus inactivation and its effects on biological properties of fetal bovine serum [J] . Mahmoud Karimi Azar Daryany, Seyed Masoud Hosseini, Morteza Raie Journal of Photochemistry and Photobiology, B. Biology: Official Journal of the European Society for Photobiology . 2009,第2期

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4. Scaling of Laser-induced Contamination Growth at 266 nm and 355 nm [C] . M. Liessmann, L. Jensen, I. Balasa, Annual laser damage symposium . 2015

机译：激光诱导的266 nm和355 nm污染物生长的标度
5. Dynamic modeling of crop productivity on a dual scale: Simulating soybean growth under controlled environments; assessing implications of increased crop yields on a global scale. [D] . Cavazzoni, James Michael. 1997

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6. Laser-Induced Biochar Formation through 355 nm Pulsed Laser Irradiation of Wood and Application to Eco-Friendly pH Sensors [O] . Sung-Yeob Jeong, Chan-Woo Lee, Jun-Uk Lee, 2020

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8. Laser-induced damage of fused silica at 355 and 1065 nm initiated at aluminum contamination particles on the surface [R] . Genin, F. Y. , Michlitsch, K. , Furr, J. , 1997

机译：激光诱导的熔融石英在355和1065 nm处的损坏始于表面上的铝污染颗粒

Scaling of Laser-induced Contamination Growth at 266 nm and 355 nm

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