10.6μm激光辐照下光学薄膜的微弱吸收测量

 建立了表面热透镜技术测量光学薄膜微弱吸收的实验装置，对10.6μm CO₂激光辐照下镀制在Ge基底上的不同厚度的单层ZnS，YbF₃薄膜，以及镀制在Ge基底上不同膜系的（YbF₃/ZnSe）多层分光膜的弱吸收进行了测量，并对实验结果作了分析和讨论。实验结果表明，利用本实验系统已测得的待测样品的最低吸收为2.87×10^-4，测量系统的灵敏度为10^-5。     

YbF3沉积速率对红外激光薄膜表面缺陷的影响

 在介绍了薄膜缺陷的特点及成因的基础上，分析了YbF₃沉积速率对红外激光薄膜表面缺陷密度的影响，得出了镀制激光薄膜所需的合适速率。结果表明：薄膜表面缺陷主要以节瘤缺陷与陷穴缺陷为主，其缺陷密度随YbF₃沉积速率的减小基本表现为减小的趋势，当ZnS沉积速率约为0.2 nm/s，YbF₃沉积速率约为0.4 nm/s时，可得到比较满意的激光薄膜，薄膜表面缺陷密度仅为0.000 675。     

沉积温度对HfO2薄膜残余应力的影响

 用电子束蒸发方法制备了HfO₂薄膜，根据镀膜前后基片曲率半径的变化，用Stoney公式计算了薄膜应力，讨论了沉积温度对薄膜残余应力的影响。结果发现，HfO₂薄膜的残余应力均为张应力，应力值随沉积温度的升高先增大后减小，在280 ℃左右出现极大值。对样品进行了XRD测试，从微观结构上对实验结果进行了分析，发现微结构演变引起的内应力变化是引起薄膜残余应力改变的主要因素，HfO2薄膜在所选沉积温度60~350 ℃内出现了晶态转变，堆积密度随温度升高而增大。     

沉积温度对LaF3薄膜性能的影响

 在189，255，277和321 ℃的沉积温度下用热舟蒸发方法制备了LaF₃薄膜。通过X射线衍射(XRD)测试了薄膜的晶体结构;采用分光光度计测量了薄膜的透射光谱，并计算得到样品的折射率、消光系数和截止波长;利用光学干涉仪测试得到了薄膜的残余应力;采用三倍频Nd:YAG脉冲激光测试了薄膜的激光损伤阈值。结果表明：随沉积温度的提高，LaF₃薄膜的结晶状况明显变好，晶粒尺寸逐渐变大；膜层变得更加致密，折射率变大，然而薄膜吸收变得严重，截止波段向长波漂移，同时薄膜的残余应力也增加，内应力在薄膜的残余应力中起着决定作用；薄膜的激光损伤阈值在高温制备时相对较高。     

氧分压对HfO2薄膜残余应力的影响及有限元分析

 利用电子束蒸发法制备了单层HfO₂膜,控制氧气流量从0 mL/min以步长5 mL/min递增至25 mL/min(标况下)。利用ZYGO干涉仪测量基片镀膜前后的面形变化,代入Stoney公式计算出残余应力,分析了不同氧压下残余应力的变化情况。随着氧压的增大,残余应力由张应力逐渐过渡到压应力,当氧压过大时,压应力减小。因此可以通过改变氧压来控制应力。应力的变化与薄膜的微观结构密切相关,分析了所有样品的X射线衍射图（XRD）,发现均为非晶结构。利用Ansys建立基片-薄膜有限元模型,将应力作用下基片的形变与实验结果进行对比,验证所建立的模型,为分析HfO₂/SiO₂膜堆应力的匹配设计提供参考。     

表面热透镜技术测量3.8μm和2.8μm激光薄膜的微弱吸收

 采用表面热透镜技术，对3.8μm和2.8μm激光辐照下镀制在Si基底上的单层ZnS，YbF₃和YBC薄膜及不同膜系的YbF₃/ ZnS多层分光膜和多层高反膜，以及镀制在CaF₂基底上的增透膜进行了吸收测量，并对3.8μm和2.8μm 激光的测量结果进行了比较分析。实验结果表明，2.8μm波长下的吸收比3.8μm的大得多，两者之间约相差一个量级，测得的多层高反膜YbF₃/ZnS薄膜在的3.8μm处的最低吸收为4.57×10^－4，测量系统的灵敏度约为10^-5。     

Zn掺杂β-Ga2O3薄膜的制备和特性研究

β-Ga₂O₃是一种宽带隙半导体材料,能带宽度E_g≈5.0eV,在光学和光电子学领域有广泛的应用。用射频磁控溅射方法在Si衬底和远紫外光学石英玻璃衬底制备了本征β-Ga₂O₃薄膜及Zn掺杂β-Ga₂O₃薄膜,用紫外 可见分光光度计、X射线衍射仪、荧光分光光度计对本征β-Ga₂O₃薄膜及Zn掺杂β-Ga₂O₃薄膜的光学透过、光学吸收、结构和光致发光进行了测量,研究了Zn掺杂和热退火对薄膜结构和光学性质的影响。退火后的β-Ga₂O₃薄膜为多晶结构,与本征β-Ga₂O₃薄膜相比,Zn掺杂β-Ga₂O₃薄膜的β-Ga₂O₃(111)衍射峰强度变小,结晶性变差,衍射峰位从35.69°减小至35.66°。退火后的Zn掺杂β-Ga₂O₃薄膜的光学带隙变窄,光学透过降低,光学吸收增强,出现了近边吸收,薄膜的紫外、蓝光及绿光发射增强。表明退火后Zn掺杂β-Ga₂O₃薄膜中的Zn原子被激活充当受主。     

ECR-PECVD制备Si3N4薄膜的光学特性研究

本文研究了ECR-PECVD制备的Si₃N₄薄膜的光学特性.得到的Si₃N₄薄膜具有光致发光效应,在280℃沉积制备的Si₃N₄薄膜的光致发光波长为400nm,具有较好的单色性.测试分析了Si₃N₄薄膜对可见光、红外光具有较高的透射性能,Si₃N₄薄膜可作为红外光的增速减反射膜.     

化学法制备的HfO2薄膜的激光损伤阈值研究

 采用化学法制备了HfO₂介质膜，研究了热处理、紫外辐照以及Al₂O₃复合对HfO₂介质膜激光损伤阈值的影响。采用红外光谱（FTIR）和X射线衍射仪对薄膜进行了表征，并用输出波长为1.064 μm、脉宽为10 ns的电光调Q激光系统测试薄膜的激光损伤阈值。实验结果表明：采用150 ℃左右的温度对薄膜进行热处理可以提高薄膜的激光损伤阈值，所获得的薄膜的激光损伤阈值高达42.32 J/cm²，比热处理前的激光损伤阈值提高了82%；无机材料Al₂O₃的适量添加能够提高薄膜的激光损伤阈值，其中HfO₂与Al₂O₃的最佳质量配比约为95∶5；另外，对薄膜进行适当的紫外辐照也可改善HfO₂ 薄膜以及HfO₂-Al₂O₃复合薄膜的抗激光损伤性能。紫外辐照对提高HfO₂-Al₂O₃复合薄膜的激光损伤阈值效果尤为显著，辐照40 min后的激光损伤阈值达到44.33 J/cm²，比紫外辐照前的激光损伤阈值提高了90%。     

脉冲激光沉积温度及氧压对Bi2Sr2Co2Oy热电薄膜晶体结构与电输运性能的影响

利用脉冲激光沉积技术在c-Al₂O₃单晶基片上制备了Bi₂Sr₂Co₂O_y热电薄膜并研究了沉积温度和氧压对薄膜晶体结构及电输运性能的影响.在最佳沉积条件下制备的单相、c轴取向的Bi₂Sr₂Co₂O_y薄膜的室温电阻率ρ和塞贝克系数S分别为2.9mΩ/cm和110μupV/K,其功率因子S²/ρ好于在单晶样品上得到的值.此外,该薄膜在低温下表现出较强的负磁阻效应,在2K,9T时达到了40%.     

DF化学激光窗口低损耗增透膜

 表述了DF激光波段采CaF₂和硅窗口减反射膜系的结果。分析了设计多层AR膜的方法并给出用ZnSe/YbF₃材料组合的双层和五层AR膜系。计算了各种膜系的理论性能。研究了膜层淀积工艺技术,对于CaF₂和硅窗口,在DF激光波段实验透过率分别为99.54%和99.8%,镀AR膜CaF₂窗口能承受4.3kW/cm²的连续波DF激光辐射。     

Thickness effect on stress,structural, electrical and sensing properties of (0 0 2) preferentially oriented undoped ZnO thin films

Preferentially oriented (0 0 2) ZnO thin films with c-axis-oriented wurtzite structure have been grown on Si (1 0 0) and glass substrates using radio frequency magnetron sputtering. The residual stresses have been determined and calculated via the Stoney formalism. The ZnO thin films have been also characterised by X-ray diffraction and scanning electron microscope, and their stoichiometry was verified by Rutherford backscattering spectroscopy. The evolution of the residual stress was studied as a function of film thickness in the 10–1200 nm range. A growth scenario is proposed and a possible correlation between the residual stress, film’s texture and crystallographic orientation is highlighted. The crystalline quality was found to improve, while the stress values decreased with increasing thickness, and as a ramification the thicker films developed better sensing response to gases. The mechanical (stress) and electrical properties of the films were also investigated as a function of the film thickness, which tended to manifestly improve in dependence on thickness as well. We attribute this to the fact that the thinner films are under vehement misfit stress that declines with increasing the film thickness further.     

光学薄膜残余应力分配预测模型计算方法研究

残余应力是光学薄膜研究的一个重要组成部分，它对光学元器件有很大的影响。根据弹性力学原理，基于应变不匹配，提出了一种可以预测薄膜残余应力分配的理论模型计算方法，并将计算结果与干涉仪测量值进行了对比。利用所建立的模型分析了薄膜参数变化时基底残余应力的变化情况。结果表明：所建模型合理；随着镀膜温度的增加，基底总残余应力随镀膜温度升高而呈增大的趋势;本征应力变化不太大；随着基底厚度的减小，基底上下表面应力呈增大的趋势，而薄膜应力则呈减小趋势，但变化趋势很小。基底的中心轴约位于基底上表面以下2／3处。     

Effect of deposition condition on residual stress of iron nitride thin films prepared by magnetron sputtering and ion implantation

The surface roughness and residual stress development in Fe-N thin films prepared by compound technology—combining magnetron sputtering with plasma based ion implantation were investigated by means of atomic force microscope and synchrotron radiation. The results indicate that the grain size of the thin film increases with the increasing of nitrogen ion implantation time, and the state of residual stress is related closely to the formation mechanism of thin films. With the nitrogen ion implantation time increasing, the residual stress of the thin film changes into tensile stress from initial compressive stress, and the tensile stress decreases with the further increasing of ion implantation time.     

Residual stress and Curie temperature of Fe-N thin films prepared by dc magnetron sputtering at elevated temperature

Fe-N thin films were prepared by dc magnetron sputtering at elevated temperature of 80 °C. The residual stress of the thin film was characterized by means of grazing incidence X-ray diffraction method. The effect of magnetron sputtering parameter on residual stress was investigated. The results indicate that the nitrogen content in working gas has great effects on the residual stress in the Fe-N thin film, and the residual stress increases firstly and then decreases with the increasing of nitrogen content in working gas. Curie temperature measurement shows that tensile residual stress enhances the ferromagnetic-paramagnetic transition temperature of Fe-N thin films under the condition of same phase composition.     

Influences of Y2O3 dopant content on residual stress,structure, and optical properties of ZrO2 thin films

Four kinds of Y2O3 stabilized ZrO2 （YSZ） thin films with different Y2O3 contents （from 0 to 12 mol%） are deposited on BK7 glass substrates by electron-beam evaporation method. The effects of different Y2O3 dopant contents on residual stress, structure, and optical properties of ZrO2 thin films are investigated. The results show that residual stress in YSZ thin films varies from tensile to compressive with the increase of Y2O3 molar content. The addition of Y2O3 is beneficial to the crystallization of YSZ thin film and transformation from amorphous to high temperature phase, and the refractive index decreases with the increase of Y2O3 molar content. Moreover, the variations of residual stress and the shifts of refractive index correspond to the evolution of structures induced by the addition of Y2O3.     

中红外光参变振荡器在高反射率测量中的应用

根据光腔衰荡光谱技术(CRDS)原理,使用中红外光参变振荡器(OPO)为光源建立了直腔与折叠腔相结合的中红外波段3.6 μm 反射率测量实验装置,用于研究中红外波段的高反射膜反射率,测试精度为10-4。使用直型衰荡光腔测试了三对不同薄膜材料设计镀制的高反射腔镜的反射率,并选择了一对腔镜用于实验装置中。采用该装置精确测试了不同薄膜材料镀制的高反射膜的反射率,包括YbF3/ZnS,YbF3 /ZnSe多层膜,以及由银加保护膜镀制的反射镜。研究表明,中红外波段介质膜的反射率可达到R>0.9990,其中由YbF3/ZnSe镀制在硅基底上的多层介质膜3.6 μm反射率可达到99.96％。     

Residual stress/strain analysis in thin films by X-ray diffraction

Residual stresses are found in the majority of multilayer thin film structures used in modem technology. The measurement and modeling of such stress fields and the elucidation of their effects on structural reliability and device operation have been a “growth area” in the literature, with contributions from authors in various scientific and engineering disciplines.

In this article the measurement of the residual stresses in thin film structures with X-ray diffraction techniques is reviewed and the interpretation of such data and their relationship to mechanical reliability concerns are discussed.     

Er∶YbF3转光薄膜的制备及衬底温度对其光学性能的影响

采用脉冲激光沉积(PLD)方法在Si(100)衬底上成功制备了具有上下转换的Er∶YbF₃转光薄膜。研究发现,所制备的Er∶YbF₃转光薄膜实现了上下转换两种机制的结合,能有效地把紫外光和红外光转换到非晶硅太阳能电池最佳响应范围内的656 nm处。进一步分析了衬底温度对薄膜相结构及光学性能影响的物理机制。当衬底温度高于500 ℃时,薄膜会随着温度的升高而结晶性变强,但有杂相生成。研究结果表明,Er∶YbF₃转光薄膜的光学性能在衬底温度为500 ℃时最佳,有望应用到非晶硅太阳能电池上使其光电效率提高。