SiO2半波覆盖层对HfO2/SiO2高反膜激光损伤的影响

 研究了SiO₂半波覆盖层对HfO₂/SiO₂高反射膜1064nm激光损伤的影响,分析薄膜的激光损伤特性及图貌得出, 对于单脉冲（1-ON-1）激光损伤,SiO₂半波覆盖层能提高HfO₂/SiO₂高反膜的激光损伤阈值;可显著降低激光损伤程度,减小灾难性损伤发生的概率;可大幅度提高HfO₂/SiO₂高反膜膜的抗激光损伤能力。     

波长1064nm脉冲激光高阈值反射膜的研制

 研究HfO₂/SiO₂高反射膜的制备工艺及其激光诱导损伤阈值的比较测试,分别采用了反应蒸镀HfO₂、反应离子辅助蒸镀HfO₂、反应离子辅助蒸镀金属Hf的源材料形成HfO₂薄膜。采用这三种工艺制备了HfO₂/SiO₂高反射膜,在中心波长1064nm处,反射率 R≥99.5%,其中反应蒸镀HfO₂/SiO₂高反射膜损伤阈值最高,可达60J/cm²(1064nm,5ns)。     

用1064nm激光增强HfO2/SiO2薄膜的抗激光损伤能力的实验研究

 用1 064nm激光实验研究了HfO₂/SiO₂薄膜的激光损伤增强效应，实验以薄膜激光损伤阈值70%的激光能量开始，采用N-ON-1方式处理薄膜，激光脉冲的能量增量为5J/cm²。实验结果表明，激光处理薄膜表面能使激光损伤阈值平均提高到3倍左右，并且薄膜的损伤尺度也明显减小。对有缺陷的薄膜，其缺陷经低能量激光后熔和消除，其抗激光损伤能力得到增强，但增强得并不显著，而薄膜本身的激光预处理，可以使其激光损伤阈值大大提高。     

层间热处理对SiO2/ZrO2双层膜的影响

 以正硅酸乙酯和丙醇锆为前驱体,用溶胶-凝胶法在K9基片上提拉镀制SiO₂/ZrO₂双层膜。采用不同实验步骤制备了2个样品,样品1镀完SiO₂后直接镀ZrO₂ ,样品2镀完SiO₂经热处理后再镀ZrO₂。采用原子力显微镜、椭偏仪、紫外-可见分光光度计对薄膜进行表征。针对SiO₂/ZrO₂双层膜,考虑到膜间渗透的影响,采用３层Cauchy模型进行椭偏模拟,椭偏参数的模拟值曲线与椭偏仪的测量值曲线十分吻合,进而发现热处理可以使SiO₂/ZrO₂双层膜之间的渗透减少近23 nm,从而提高其峰值透射率。利用输出波长1.064 mm,脉宽8.1 ns的激光束对样品进行了损伤阈值的测试,用光学显微镜观察损伤形貌,结果发现两者损伤阈值分别为13.6 J/c2和14.18 J/cm²,均为膜的本征损伤。     

SiO2内保护层对LiB3O5晶体倍频增透膜损伤阈值的影响

 利用离子辅助电子束沉积方法在LiB₃O₅基底上镀制了不加SiO₂内保护层和加SiO₂内保护层的倍频增透膜，测量了两类薄膜在波长1 064 nm多脉冲辐照下的激光损伤阈值，获得了两种不同的损伤形貌，并对损伤原因作了初步探讨。实验结果表明：保护层的加入把由基底膜层界面缺陷吸收所决定的阈值改变到由HfO₂膜层内缺陷吸收所决定的阈值，显著提高了倍频增透膜的抗激光损伤能力。     

1 064 nm与532 nm激光对电子束蒸发制备的HfO2/SiO2高反膜损伤比较

 研究了电子束蒸发制备的HfO₂/SiO₂高反膜在1 064 nm与532 nm激光辐照下的损伤行为。基频激光辐照时损伤形貌主要为节瘤缺陷喷溅留下的锥形坑,当能量密度较大时出现分层剥落;二倍频激光损伤主要是由电子缺陷引起的平底坑,辐照脉冲能量密度稍高时也会产生吸收性缺陷引起的锥形坑,但电子缺陷的损伤阈值更低;随着辐照脉冲能量密度的增大分层剥落逐渐成为主要的损伤形貌。分析认为,辐照激光波长的变化,引起吸收机制的变化从而导致了损伤阈值及损伤机制的差异。     

高抗激光损伤阈值介孔SiO2 减反射膜

 用P123作模板剂,通过正硅酸乙酯的水解缩聚和溶剂蒸发自组装过程在K9玻璃上制备介孔SiO₂膜。应用FT-IR,XRD,N₂ 吸附-脱附,AFM和UV-Vis表征手段研究了薄膜的介孔结构和光学性能,并使用“R-on-1”模式,以Nd:YAG脉冲激光（9.2 ns, 1 064 nm）测试了薄膜的激光损伤阈值。结果表明:所镀制单层介孔SiO₂膜具有规整的2D p6 mm长周期结构,为SBA-15型,膜层表面比较平整（均方根粗糙度为2.923 nm）,在1 064 nm处的透过率为99.5%, 换算为激光脉宽为1 ns时,膜层的激光损伤阈值为21.6 J/cm²,显示出了较好的减反性能和抗激光损伤性能。     

溶胶-凝胶法MgF2紫外增透膜的制备和性能研究

 采用溶胶-凝胶法,以醋酸镁和氟化氢为原料,以甲醇为溶剂制备了MgF₂溶胶,利用浸渍提拉法在洁净石英基片上镀膜,考察了反应温度对溶胶微结构、薄膜结构和性能的影响。样品采用激光动态光散射、透射电镜、X射线粉体衍射仪、紫外-可见光谱仪、原子力显微镜进行表征。结果表明：通过该方法制备的表面平整的低折射率MgF₂薄膜,在紫外区具有很好的增透性能,同时在紫外波长355 nm激光的辐照下（脉宽6 ns）,薄膜具有较高的抗激光损伤性能,激光损伤阈值达10.85 J·cm^-2。     

缓冲层对LBO晶体上1 064 nm，532 nm增透膜附着力的影响

 采用电子束蒸发方法在LBO晶体上制备了无缓冲层和具有不同缓冲层的1 064 nm,532 nm二倍频增透膜。利用分光光度计、纳米力学综合测试系统以及调Q脉冲激光装置对样品的光学性能、附着力以及抗激光损伤性能进行了测试分析。结果表明：所有样品在1 064 nm和532 nm波长的剩余反射率都分别小于0.1％和0.2％;与无缓冲层样品相比,预镀Al₂O₃缓冲层样品的附着力提高了43.1％,具有SiO₂缓冲层样品的附着力显著提高,而MgF₂缓冲层的插入却导致薄膜附着力降低。应用全塑性压痕理论和剪切理论对薄膜的附着力增强机制进行了分析。薄膜的抗激光损伤性能分析表明,SiO₂缓冲层也有助于改进薄膜的激光损伤阈值。     

高损伤阈值三倍频分离膜

 设计了Nd：YAG激光用三倍频分离膜,膜层材料为SiO₂和HfO₂。经过优化,膜系在355 nm处的反射率在99%以上,在532 nm和1 064 nm处透射率也在99%以上。采用电子束蒸发技术,在熔融石英基底上制备了样品,经测量,制备的分离膜光学性能与设计值接近。分离膜在355 nm激光辐照下的损伤阈值为5.1 J/cm²,并用微分干涉显微镜表征了薄膜损伤形貌。     

Characteristics of nodular defect in HfO2/SiO2 multilayer optical coatings

Laser-induced damage is associated with nodular defects in HfO₂/SiO₂ multilayer films. In order to investigate the damage characteristics of HfO₂/SiO₂ multilayer mirrors and find the information of improving laser-induced damage threshold, nodular defects are characterized by multiple analytical techniques; the damage morphologies induced by nodular-ejections are presented; the depths of nodular-ejection pits are investigated; the laser-induced damage threshold of zero probability and the stabilities of nodular-ejection pits exposed to repetitive illuminations are studied. Results show that domes in the film surface are nodular defects. Reliable depth information of nodular-ejection pits is obtained by counting layers from the damage edge. The depth statistical result implies nodular defects in these samples are usually originated from deep seeds. Some process optimizations suggestions are given based on the depth information. A simple tractable method is proposed to determine the functional damage threshold of these HfO₂/SiO₂ multilayer films basing on the damage experiments.     

单层SiO2物理膜与化学膜激光损伤机理的对比研究

采用离子束溅射沉积技术和溶胶-凝胶技术在K9基片上镀制了厚度相近的SiO₂单层介质膜，用表面热透镜技术对两类膜层分别进行了热吸收及实时动态热畸变实验测试，结合散射光阈值测试及实验前后膜层的显微观测，对相同基底、相同膜层材料而采用不同方法镀制的光学膜层，发现化学膜的强激光损伤阈值远高于相应物理膜；从热力学响应及膜层特性差异的角度揭示了化学膜层的强激光损伤阈值远高于相应物理膜层的微观机理，即物理膜具有高吸收下的致密膜层快传导的基底热冲击效应，而化学膜则有低吸收下的疏松空隙填充慢传导的延缓效应，大量的实验数据及现象都证实了这一结论. 关键词： 强激光辐照损伤 损伤形貌 热冲击 热吸收     

Preparation of sol-gel ZrO2-SiO2 highly reflective multilayer films and laser-induced damage threshold characteristic

Sol-gel (ZrO₂/SiO₂)¹² ZrO₂ films were prepared by spin coating method. The reflectivity spectrum of the films was measured with a Lambda 900 spectrometer. In order to investigate laser-induced damage threshold (LIDT) characteristic of highly reflective films, one-layer ZrO₂ and SiO₂ films, two-layer ZrO₂/SiO₂ and SiO₂/ZrO₂ films were also prepared by spin coating method. LIDT of each film was measured. Damage morphology after laser irradiation was characterized by optical microscopy (Nikon E600K). The experimental results showed that the reflectivity of (ZrO₂/SiO₂)¹² ZrO₂ film at 1064 nm and 355 nm wavelength is 99.7%. The LIDT results decreases as the number of layer of films increases. All the films have similar damage morphology. The experimental results are explained by the different temperature profiles of the films.     

Effects of deposition rates on laser damage threshold of TiO2/SiO2 high reflectors

TiO₂ single layers and TiO₂/SiO₂ high reflectors (HR) are prepared by electron beam evaporation at different TiO₂ deposition rates. It is found that the changes of properties of TiO₂ films with the increase of rate, such as the increase of refractive index and extinction coefficient and the decrease of physical thickness, lead to the spectrum shift and reflectivity bandwidth broadening of HR together with the increase of absorption and decrease of laser-induced damage threshold. The damages are found of different morphologies: a shallow pit to a seriously delaminated and deep crater, and the different amorphous-to-anatase-to-rutile phase transition processes detected by Raman study. The frequency shift of Raman vibration mode correlates with the strain in film. Energy dispersive X-ray analysis reveals that impurities and non-stoichiometric defects are two absorption initiations resulting to the laser-induced transformation.     

预处理对355nm激光作用下熔石英损伤增长的影响

测试了经化学蚀刻、紫外激光预处理及其共同处理后的熔石英355 nm激光损伤阈值;研究了处理前后其损伤斑面积随激光辐照脉冲数的增长情况。结果表明,处理后熔石英355 nm激光损伤阈值得到了提高,且损伤斑面积增长变慢。利用CO2激光对熔石英表面损伤点进行了修复处理,修复后的损伤点R-on-1抗损伤阈值和基底阈值相当,损伤增长得到有效抑制。     

Damage performance of TiO2/SiO2 thin film components induced by a long-pulsed laser

In order to study the long-pulsed laser induced damage performance of optical thin films, damage experiments of TiO₂/SiO₂ films irradiated by a laser with 1 ms pulse duration and 1064 nm wavelength are performed. In the experiments, the damage threshold of the thin films is measured. The damages are observed to occur in isolated spots, which enlighten the inducement of the defects and impurities originated in the films. The threshold goes down when the laser spot size decreases. But there exists a minimum threshold, which cannot be further reduced by decreasing the laser spot size. Optical microscopy reveals a cone-shaped cavity in the film substrate. Changes of the damaged sizes in film components with laser fluence are also investigated. The results show that the damage efficiency increases with the laser fluence before the shielding effects start to act.     

渐变折射率Ta_2O_5/SiO_2薄膜多脉冲激光损伤特性

采用离子束溅射(IBS)的方式,制备了1064nm高反射Ta2O5/SiO2渐变折射率光学薄膜。对其光学性能和在基频多脉冲下抗损伤性能进行了分析。通过渐变折射率的设计方式,很好地抑制了边带波纹,增加了1064nm反射率。通过对损伤阈值的分析发现,随着脉冲个数的增加,损伤阈值下降明显;但是在20个脉冲数后,损伤阈值(维持在22J/cm2左右)几乎保持不变直到100个脉冲数。通过Leica显微镜对损伤形貌的观察,发现损伤诱因是薄膜表面的节瘤缺陷。通过扫描电镜(SEM)以及聚集离子束(FIB)对薄膜表面以及断面的观察,证实了薄膜的损伤起源于薄膜表面的节瘤缺陷。进一步研究得出,渐变折射率薄膜在基频光单脉冲下损伤主要是由初始节瘤缺陷引起的,在后续多脉冲激光辐照下初始节瘤缺陷引起烧蚀坑的面积扩大扫过薄膜上的其他节瘤缺陷,引起了其他节瘤缺陷的喷射使损伤加剧,造成损伤的"累积效应"。     

Effect of impurities on laser-induced air breakdown at 1.06 μ

Experiments have been performed to determine the reduction of the laser-induced breakdown threshold of 1 atmosphere air due to the presence of particulate matter. SiO₂ and carbon fibers with diameters ranging from 6.6 μ to 68 μ were placed in the focal volume and irradiated by 30 nsec, 1.06 μ laser pulses. The reduction in breakdown threshold is found to be comparable to that previously reported for 10.6 μ radiation. Within the experimental accuracy, the breakdown threshold scales as λ^-2.     

Graded index broadband antireflection coating prepared by glancing angle deposition for a high-power laser system

This paper reports that SiO₂ is selected to fabricate broadband antireflection (AR) coatings on fused silica substrate by using glancing angle deposition and physical vapour deposition. Through accurate control of the graded index of the SiO₂ layer, transmittance of the graded broadband AR coating can achieve an average value of 98% across a spectral range of 300--1850~nm. Moreover, a laser-induced damage threshold measurement of the fabricated AR coating is performed by using a one-on-one protocol according to ISO11254-1, resulting in an average damage threshold of 17.2~J/cm$^{2}$.     

Femtosecond laser ablation of crystals SiO2 and YAG

Damage threshold of crystals SiO₂ and YAG against 60-900 fs, 800 nm laser pulses are reported. The breakdown mechanisms were discussed based on the double-flux model and Keldysh theory. We found that impact ionization plays the important role in the femtosecond laser-induced damage in crystalline SiO₂, while the roles of photoionization and impact ionization in YAG crystals depend on the laser pulse durations.