横向电场下的类金刚石薄膜激光损伤

类金刚石(DLC)薄膜在红外区有很高的透过率,但激光损伤阈值低,严重限制了其应用领域。采用直接在DLC薄膜上沉积Ti电极,基于激光损伤阈值(LIDT)测试平台,用1-on-1零几率损伤法,研究了在不同偏置电场下DLC薄膜损伤阈值及损伤形貌的变化。发现电场强度从0增加到700V/cm,损伤阈值明显增大;进一步增大偏置电场,损伤阈值相对不变。分析认为偏置电场改变了激光辐照DLC薄膜区域的光生载流子漂移速度,减小了DLC薄膜的局部热累积,减缓了薄膜的石墨化进程,提高了DLC薄膜的抗激光损伤阈值。     

减反膜的梯度化与激光损伤阈值之间的关系研究

光学减反膜是激光系统的重要组成部分，也是在激光照射下最容易发生损伤的部分，如何提高减反膜的激光损伤阈值是研究的热点之一。在保持目标透射光谱要求和膜系总光学厚度不变的前提下，研究了不同梯度化减反膜与激光损伤阈值之间的关系。首先采用混合渐变膜系设计方法设计了一种渐变减反膜系，G/H₁→H/L/A；其次通过渐变折射率分层等效方法将渐变减反膜系进行不同的梯度化，并利用PECVD技术，在K9玻璃上沉积了满足光学性能指标要求的不同渐变减反膜系(多层梯度渐变膜系和相应的坡度渐变膜系)；最后进行了激光损伤阈值(LIDT)测量。研究结果表明:在保持目标透射光谱要求和膜系总光学厚度不变的前提下，渐变减反膜系相比于传统减反膜系，抗激光损伤阈值有明显的提高；随着梯度化层数的增加，渐变减反膜系的激光损伤阈值呈减小的趋势；对于相同膜层的渐变折射率薄膜，采用坡度法制备的样片抗激光损伤阈值均优于采用梯度化制备的样片。     

离子束流后处理对类金刚石薄膜激光损伤特性的影响

类金刚石薄膜激光损伤阈值低,已经严重制约其在红外激光系统中的应用。基于非平衡磁控溅射技术,在硅基底上沉积类金刚石薄膜;采用离子束流后处理技术,用正交实验法确定影响处理效果的主要因素,对已沉积完成的DLC薄膜进行离子束轰击;在不同处理工艺下,观测薄膜样品的光学常数及拉曼光谱,最后进行了激光损伤测试。从测试结果可知,离子束流后处理参数:离子能量1000eV、放电电流30~40mA、轰击时间8min时,透射率由原来的60.65%提高到了65.98%;消光系数在900nm后明显降低,DLC薄膜的激光损伤阈值从0.69J/cm2提高到1.01J/cm2。     

Effect of ammonia treatment on laser-induced damage of nano-porous silica film

The sol-gel monolayer silica films on K9 glass substrates were prepared with the dip method, and then treated in saturated ammonia gas. The laser-induced damage threshold (LIDT) of silica films with and without ammonia treatment was measured. Properties of the films were analyzed by using Stanford photo-thermal solutions (SPTS), ellipsometry, atomic force microscopy (AFM), and optical microscopy to study the effect of ammonia treatment on laser-induced damage of sol-gel monolayer silica film under laser irradiation. The experimental results showed that compared with the as-grown silica film, the silica film with ammonia treatment had larger absorption and smaller porous ratio, and it had smaller LIDT. Considering the improved abrasion resistance of films with ammonia treatment, a trade-off is always needed between abrasion resistance and LIDT in practice.     

电子束蒸发法制备ZrO2薄膜的相变模型分析

 用电子束蒸发方法制备了纯的ZrO₂薄膜和含Y₂O₃摩尔分数为7%和13%的ZrO₂薄膜,即YSZ薄膜,通过测定薄膜的损伤阈值来验证温度诱导相变模型;并用X射线衍射（XRD）来测定ZrO₂和YSZ镀膜材料和薄膜的结构特征。结果表明：ZrO₂镀膜材料和薄膜室温下都表现为单斜相,YSZ镀膜材料和薄膜室温下都以立方相存在;YSZ薄膜的损伤阈值远高于ZrO₂薄膜的损伤阈值,这是因为添加Y₂O₃后的YSZ材料的相比较稳定,在蒸发过程中不会发生相变,而ZrO₂材料则发生相变,产生缺陷,缺陷在激光作用下成为吸收中心和初始破坏点,导致ZrO₂薄膜的损伤阈值降低。     

Influence of porosity on laser damage threshold of sol–gel ZrO2 and SiO2 monolayer films

Monolayer ZrO₂ sol–gel and physical vapor deposition (PVD) films were prepared by spin method and electron beam evaporation method, respectively. Monolayer sol–gel SiO₂ films were prepared with the dip-coating method from acid and base catalyzed SiO₂ sols, respectively. Some of the SiO₂ base films were subsequently treated in saturated ammonia gas for 20 h. The laser induced damage threshold (LIDT) of each film was measured. Properties of the films were analyzed by using Stanford photo-thermal solutions (SPTSs), ellipsometer, atomic force microscopy (AFM) and optical microscopy. The experimental results showed that porous ratio is an essential factor to decide the LIDT for sol–gel films, which benefits the pressure exerted on the film or substrate by the moving particle to dissipate. The films with lower thermal absorption and higher porous ratio have higher LIDT.     

Working Pressure Dependence of Properties of Al2O3 Thin Films Prepared by Electron Beam Evaporation

The effects of working pressure on properties of Al2O3 thin films are investigated. Transmittance of the Al2O3 thin film is measured by a Lambda 900 spectrometer. Laser-induced damage threshold （LIDT） is measured by a Nd：YAG laser at 355 nm with a pulse width of 7ns. Microdefects were observed under a Nomarski microscope. The samples are characterized by optical properties and defect, as well as LIDT under the 355 nm Nd：YAG laser radiation. It is found that the working pressure has fundamental effect on the LIDT. It is the absorption rather than the microdefect that plays an important role on the LIDT of Al2O3 thin film.     

二氧化硅增透膜微观结构与激光损伤阈值的调控

采用溶胶-凝胶技术制备了二氧化硅增透膜,通过向溶胶中添加高分子聚乙烯醇缩丁醛（PVB）,调控胶体的粒径,进而控制膜层微观结构,研究膜层微观结构与激光损伤阈值的关系。纳米粒度仪和扫描探针显微镜测试表明:PVB加入溶胶后,控制了二氧化硅胶粒的生长,使二氧化硅胶粒生长更均匀,因而膜层的微观结构更均匀。当PVB质量分数为1%时,胶体粒径为15 nm,分散系数小于0.1。用该胶体镀膜,膜层均匀,表面粗糙度小于3.25 nm。并且PVB加入后增加了膜层胶粒间的黏附性,使得膜层强度增大。PVB加入使膜层的激光损伤阈值有所增加。当PVB的添加量为1%时,膜层的激光损失阈值从30.0 J/cm2增加到40.1 J/cm2。膜层激光损伤阈值的增加与膜层微观均匀性和物理强度的增加有关。     

辐照激光能量对SiO2薄膜特性及结构的影响

 为了认识SiO2薄膜在激光辐照下的变化,本文以K9玻璃为基底,采用电子束热蒸发方法制备了SiO2薄膜,并将此组在相同实验条件下制备的薄膜加以不同能量的激光辐照,研究在激光辐照前后样片的透射率、折射率、消光系数、膜厚、表面形貌及激光损伤阈值（LIDT）的变化。结果表明,样片膜厚随激光能量的增加而减小,辐照激光能改善薄膜表面形貌,并使样片LIDT值提高,最终能使样片的LIDT值从16.96 J/cm2提高至18.8 J/cm2。     

Comparison of TiO2 and ZrO2 Films Deposited by Electron-Beam Evaporation and by Sol-Gel Process

TiO2 and ZrO2 films are deposited by electron-beam （EB） evaporation and by sol-gel process. The film properties are characterized by visible and Fourier-transform infrared spectrometry, x-ray diffraction analysis, surface roughness measure, absorption and laser-induced damage threshold （LIDT） test. It is found that the sol-gel films have lower refractive index, packing density and roughness than EB deposited films due to their amorphous structure and high OH group concentration in the film. The high LIDT of sol-gel films is mainly due to their amorphous and porous structure, and low absorption. LIDT of EB deposited film is considerably affected by defects in the film, and LIDT of sol-gel deposited film is mainly effected by residual organic impurities and solvent trapped in the film.     

氮离子注入对类球状微米金刚石聚晶膜的影响

利用微波等离子体化学气相沉积法,在覆盖金属钛层的陶瓷衬底上制备出类球状微米金刚石聚晶膜,后对膜的表面进行氮离子的注入.通过扫描电子显微镜、拉曼光谱、X射线衍射谱及二级结构场发射测试,对膜进行了注入前后的分析.氮离子注入后场致电子发射的效果变强,这可能是氮离子的注入增加了类球状微米金刚石聚晶膜表面的缺陷度,从而增加了价带和导带间的缺陷能级,使电子更容易跃迁到高能级上,提高了场致电子的发射效果.     

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.     

Comparison of laser-induced damage in Ta2O5 and Nb2O5 single-layer films and high reflectors

Ta2O5 and Nb2O5 films are deposited on BK7 glass substrates using an electron beam evaporation method and are annealed at 673 K in the air.In this letter,comparative studies of the optical transmittance,microstructure,chemical composition,optical absorption,and laser-induced damage threshold(LIDT) of the two films are conducted.Findings indicate that the substoichiometric defect is very harmful to the laser damage resistance of Ta2O5 and Nb2O5 films.The decrease of absorption improves the LIDT in films deposited by the same material.However,although the absorption of the Ta2O5 single layer is less than that of the Nb2O5 single layer,the LIDT of the former is lower than that of the latter.High-reflective(HR) coatings have a higher LIDT than single layers due to the thermal dissipation of the SiO2 layers and the decreased electric field intensity(EFI).In addition,the Nb2O5 HR coating achieves the highest LIDT at 25.6 J/cm 2 in both single layers and HR coatings.     

两种后处理方法对HfO2薄膜性能的影响

利用电子束蒸发和光电极值监控技术制备了氧化铪薄膜,并分别用两种后处理方法(空气中退火和氧等离子体轰击)对样品进行了处理.然后,对样品的透过率、吸收和抗激光损伤阈值进行了测试分析.实验结果表明,两种后处理方法都能不同程度地降低了氧化铪薄膜的吸收损耗、提高了抗激光损伤阈值.实验结果还表明,氧等离子体轰击的后处理效果明显优于热退火,样品的吸收平均值在氧等离子体后处理前后分别为34.8 ppm和9.0 ppm,而基频(1 064 nm)激光损伤阈值分别为10.0 J/cm2和21.4 J/cm2.     

溶胶-凝胶SiO2酸性膜与碱性膜的激光损伤行为

 采用溶胶-凝胶技术分别在K9基片上镀制了光学厚度相近的单层SiO₂酸性膜和碱性膜。测试了两类薄膜的激光损伤阈值;分别采用透射式光热透镜技术、椭偏仪、原子力显微镜、扫描电镜和光学显微镜研究了两类薄膜的热吸收、孔隙率、微观表面形貌、激光辐照前薄膜的杂质和缺陷状况以及激光辐照后薄膜的损伤形貌。实验结果表明：相对于碱性膜,酸性膜有更大的热吸收和更小的孔隙率,因此其激光损伤阈值较小;两类薄膜不同的损伤形貌与薄膜的热吸收系数与微观结构有关。     

吸收辐射复合金刚石膜的制备及光学研究

采用微波等离子体化学气相沉积（MW-PCVD）和直流热阴极辉光放电等离子体化学气相沉积（DC-PCVD）两种方法相结合,制备出一种吸收辐射的复合金刚石膜,它对宽光谱范围的光辐射具有99%—99.2%的吸收率,同时具有较低的反射率和透过率.随着黑色吸收辐射金刚石层厚度的增加,复合金刚石膜的热导率将小幅度降低,但黑色金刚石膜层厚度小于15 μm时,复合金刚石膜的热导率都在16 W·cm^-1·K^-1以上,这满足吸收辐射复合金刚石膜的高导热需求.用热阴极DC-PCVD方 关键词： 吸收辐射 光学材料 金刚石 热导率     

Experimental research of laser-induced damage of the monolayer ZrO2 PVD and sol–gel films

Monolayer zirconia physical vapor deposition (PVD) and sol–gel films on K9 glass substrates were prepared by electron beam evaporation and spin coating methods, respectively. The laser-induced damage threshold (LIDT) of each film was measured. Properties of the films were analyzed using Stanford photo-thermal solutions (SPTS), ellipsometry, atomic force microscopy (AFM) and optical microscopy to study the damage mechanism of films under laser irradiation. The experimental results showed that, compared with the monolayer zirconia sol–gel film, the monolayer zirconia PVD film had larger absorption and smaller porous ratio, and that it had smaller LIDT. The different damage morphologies of films were influenced by their different absorption and microstructure characteristics. The zirconia sol–gel film is more suitable for applications involving high-power lasers.     

原子层沉积HfO_2薄膜的激光损伤特性分析

以目前激光惯性约束聚变中应用最广泛的高折射率材料二氧化铪(HfO2)为研究对象,在熔石英基底上分别采用TEMAH和HfCl4前驱体制备了HfO2薄膜,沉积温度分别为100,200和300℃。采用椭偏仪和激光量热计对薄膜的光学性能进行了测量分析,采用X射线衍射仪(XRD)对薄膜的微结构进行了测量。最后在小口径激光阈值测量平台上按照1-on-1测量模式对薄膜的损伤阈值进行了测试,并采用扫描电子显微镜(SEM)对损伤形貌进行了分析。研究表明,用同一种前驱体源时,随着沉积温度升高,薄膜折射率增加,吸收增多,损伤阈值降低。在相同温度下,采用有机源制备的薄膜更容易在薄膜内部形成有机残留,导致薄膜吸收增加,损伤阈值降低。采用HfCl4作为前驱体源在100℃制备氧化铪薄膜时,损伤阈值能够达到31.8J/cm2(1064nm,3ns)。     

Influence of negative ion element impurities on laser induced damage threshold of HfO2 thin film

Negative ion element impurities breakdown model in HfO₂ thin film was reported in this paper. The content of negative ion elements were detected by glow discharge mass spectrum analysis (GDMS); HfO₂ thin films were deposited by the electron-beam evaporation method. The weak absorption and laser induced damage threshold (LIDT) of HfO₂ thin films were measured to testify the negative ion element impurity breakdown model. It was found that the LIDT would decrease and the absorption would increase with increasing the content of negative ion element. These results indicated that negative ion elements were harmful impurities and would speed up the damage of thin film.     

单脉冲和多脉冲飞秒激光对单层光学薄膜的损伤

 利用掺钛的蓝宝石飞秒激光系统输出的单脉冲和多脉冲飞秒激光(中心波长800 nm，脉宽50 fs，靶面聚焦直径Ф 40 μm)，分别对BK7玻璃基底上厚约500 nm的单层HfO₂和单层ZrO₂薄膜进行辐照，得到了这两种薄膜在1-on-1和1 000-on-1测试方法下的激光损伤阈值。实验发现，两种方法下HfO₂单层膜的阈值均比ZrO₂单层膜的阈值高。从简化的Keldysh多光子离化理论出发，认为HfO₂薄膜材料的带比ZrO₂的宽是导致上述结果的主要原因。同时，同一种薄膜的多脉冲下的阈值比单脉冲下的低，原因是多脉冲下，飞秒激光对光学薄膜的损伤存在累积效应。