离子束反应溅射沉积SiO_2薄膜的光学特性被引量：3

Optical properties of silicon oxide thin films deposited by reactive ion-beam sputtering method

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摘要主要研究采用离子束反应溅射(RIBS)制备SiO2薄膜的折射率、消光系数、化学计量比与氧气在氩氧混合工作气体中含量及其沉积速率的关系。研究结果表明:RIBS制备的SiO2薄膜在0.63μm处折射率n=1.48,消光系数小于10-5;随着沉积速率的增加,薄膜的折射率和消光系数随之变大,当沉积速率超过0.3 nm/s,即使是在纯氧环境溅射,折射率值也不低于1.5;通过对红外透射光谱的主吸收峰位置研究得到沉积的SiO2薄膜为缺氧型,化学计量比不超过1.8,且红外吸收峰位置和SiO2折射率存在对应关系,因此在不加热衬底情况下使用RIBS制备SiO2薄膜时,会限制沉积速率的提高。 Silicon oxide thin films deposited by reactive ion-beam sputtering（RIBS） of Si targets in Ar/O2 producer gas mixture were investigated.The refractive index n,extinction coefficient k,and stoichiometry were dependent on the oxygen concentration in Ar/O2 producer gas mixture and the deposition rate.Silicon oxide films with refractive index of n =1.48 and extinction coefficient of less than 10-5 were deposited with the RIBS method at the wavelength of 0.63 μm.An increase in the deposition rate results in the growth of refractive index and extinction coefficient of the film due to incomplete oxidation of silicon and formation of suboxides.In the case of deposition rate more than 0.3 nm/s,even if sputtering is performed in pure oxygen environment,the minimal value of refractive index is more than 1.5.The ana-lysis of the IR transmission spectrum proves that all the deposited films have oxygen deficiency,and the stoichiometry of silicon oxide does not exceed 1.8 based on the investigation of the position of the main absorption peak.The dependence between IR adsorption peak position and refractive index of silicon oxide is established.Thus,depositing silicon-oxide thin films with RIBS without heating the substrates limits the increase of deposition rate.

作者米高园朱昌戚云娟达斯坦科格拉索夫扎瓦斯基

机构地区西安工业大学白俄罗斯国立信息与无线电大学

出处《应用光学》 CAS CSCD 北大核心 2011年第2期236-240,共5页 Journal of Applied Optics

基金陕西省国际合作基金(20086100092)

关键词氧化硅反应离子束溅射光学常数沉积速率 silicon oxide reactive ion-beam sputtering optical constant deposition rate

分类号 TN305.92 [电子电信—物理电子学] O484.4 [理学—固体物理]

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参考文献8

1NPD Group Company. Flexible display (report)[R]. [S. 1. ]: DisplaySeareh, an NPD Group Company, 2006 : 359.
2VARASI M, MISIANO C, LASAPONARA L. Deposition of optical thin films by ion-beam sputtering[J]. Thin Solid Films, 1984, 117(3): 163-172.
3GOLOSOV D A, ZAVATSKIY S M, DOSTANKOA P, et al. Optical properties of a silicon oxide thinfilms deposited by reactive magnetron sputteringmethod [C]. [S. 1.]: VI International ConferencePlasma Physics and Plasma Technology, 2009 (2) : 535-538.
4GOLOSOV D A, ZAVATSKIY S M, DOSTANKOA P. Properties of silicon oxide films deposited bymethods of ion-beam and reactive ion-beam sputtering [C]. [S. 1.]: IV International Conference Modern Methods and Technologies Material Formation and Processing, 2009(1) : 81-86.
5朱昌,米高园,达斯坦科,格拉索夫,扎瓦斯基.比较2种溅射方法镀制的氧化硅薄膜[J].应用光学,2010,31(5):855-859. 被引量：1
6GIUSTINO F, PASQUARELLO A. Infrared spectra at surfaces and interfaces from first principles: e-volution of the spectra across the Si(100)-SiO2 interface[J]. Physical Review Letters, 2005, 95 (18) : 7402-7403.
7TOMOZEIU N, VAN HAPERT J J, VAN FAASSEN E E, et al. Structural properties of a-SiOx layers deposited by reactive sputtering technique[J].Optoelectronics and Advanced Materials, 2002, 4 (3): 513-521.
8TOMOZEIU N. SiOx thin films deposited by r. f. magnetron reactive sputtering: structural properties designed by deposition eonditions[J]. Optoelectronits and Advanced Materials, 2006, 8(2): 769-775.

二级参考文献9

1RADOVIC I,SERRUYS Y.Stoichiometric SiO2 thin films deposited by reactive sputtering[J].Physical Review Letters,2007,104(1):172-176.
2TOMOZEIU N,VAN HAPERT J J,VAN FAASSEN E E,et al.Structural properties of a-SiOx layers deposited by reactive sputtering technique[J].Optoel and Advanced Materials,2002,4(3):513-521.
3TOMOZEIU N.SiOx thin films deposited by r.f.magnetron reactive sputtering:structural properties designed by deposition conditions[J].Optoel and Advanced Materials,2006,8(2):769-775.
4HUBLER G K.Fundamentals of ion-beam-assisted deposition:technique and film properties[J].Materials Science and Engineering,1989,A115(1):181-192.
5WOLF G K,ENSINGER W.Ion bombardment during thin film deposition and its influence on mechanical and chemical surface properties[J].Nuclear Instruments and Methods in Physics Research,1991,B59/60(1):173-181.
6MARTIN P J.Review:ion-based methods for optical thin film deposition[J].Journal of Materials Science,1986,21(2):1-25.
7HEITMANN W.Reactive evaporation in ionized gases[J].Applied Optics,1971,10(11):2414-2418.
8HEITMANN W.Properties of evaporated SiO2,SiOxNy,and TiO2 film[J].Applied Optics,1971,10(11):2419-2420.
9VARASI M,MISIANO C,LASAPONARA L.Deposition of optical thin films by ion-beam sputtering[J].Thin Solid Films,1984,117(3):163-172.

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1舒雄文,徐晨,徐遵图,朱彦旭,沈光地.808nm大功率半导体激光器腔面光学膜工艺[J].Journal of Semiconductors,2005,26(3):571-575. 被引量：9
2金桂,周继承.射频磁控溅射SiO_2薄膜的制备与性能研究[J].武汉理工大学学报,2006,28(8):12-15. 被引量：11
3赵妙,周代兵,谭满清,王晓东,吴旭明.双源电子束蒸发制备Si/SiO_2光学薄膜的工艺[J].Journal of Semiconductors,2006,27(9):1586-1589. 被引量：8
4何智兵,吴卫东,唐永建,程丙勋,许华.不同氧氩比例对氧化硅(SiO_2)薄膜的结构及性能的影响[J].材料科学与工程学报,2007,25(2):169-171. 被引量：7
5Yu D P, Hang Q L,Ding Y, et al. Amorphous silica nanowires: Intensive blue light emitters[J]. Appl Phys Lett, 1998, 73 (21) : 3076.
6Dai L,Chen X L,Jian J K, et al. Strong blue photolumines- cence from aligned silica nanofibers[-J]. Appl Plays A, 2003 (76) : 625.
7Serikawa T, Shirai S. Ultra-thin silicon-oxide films by sputter-deposition and their application to high-quality poly-Si TFTS [-J]. Applied Surface Science. 1998,51 (4): 781-783.
8Meng G W, Peilg X S, Wang Y W, et al. Synthesis and photo- luminescence of aligned SiO2 nanowire arrays [J]. Appl Phys A,2003(76) : 119.
9Khodier S A,Sidki H M. The effect of the deposition method on the optical properties of SiO thin films[J]. J. Materials Science: Materials in Electron. ,2001,12 (16) :107-109.
10Macias-Montero M,Garcia-Garcia F J, A lvarez R, et al. Influence of plasma-generated negative oxygen ion impingement on magnetron sputtered amorphous SiOz thin films during growth at low temperatures [J]. J. Appl. Phys. ,2012,111(54) :75-78.

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3杜倩倩,王文军,李淑红,刘云龙,和晓晓,高学喜,张丙元,史强.基底温度对电子束沉积SiO2薄膜的影响[J].中国激光,2014,41(10):176-180. 被引量：4

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3郑如玺,易葵,范正修,邵建达,涂飞飞.充氧口位置对电子束蒸发沉积HfO_2薄膜性质的影响[J].中国激光,2016,43(10):127-132. 被引量：2
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5付学成,张洪波,权雪玲,王凤丹,李进喜.电子束蒸发挖坑效应膜厚均匀性的计算新方法[J].实验室研究与探索,2018,37(3):30-32. 被引量：2
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2艾万君,熊胜明.单层二氧化铪(HfO_2)薄膜的特性研究[J].光电工程,2012,39(2):134-140. 被引量：10
3陈立春,王向军,邓振波,徐叙.溅射过程中氧分压对SiO_2薄膜程膜的影响[J].天津理工学院学报,1994,10(4):1-5.
4黄宁康.离子束反应溅射沉积氧化锆薄膜的微观分析[J].薄膜科学与技术,1992,5(1):79-84.
5陈淑浩,刁丹丹,杨珂珂.SiO2层厚度的测量方法[J].科技致富向导,2011(14):27-27.
6齐红基,程传福,袁景梅,邵建达,范正修,黄立华.沉积工艺对二氧化锆薄膜生长特性影响的研究[J].光学学报,2003,23(8):974-979. 被引量：9
7周少波,王双保,陈四海,易新建.相变型VO_2薄膜的制备及其特性的研究[J].红外与激光工程,2005,34(1):27-30. 被引量：7
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9李全葆,宋炳文,陈自国,魏天衢.Hg_(1-x)Cd_x Te组分与红外透射光谱的关系[J].红外技术,1990,12(4):36-40.
10石立玉.尚朋堂SR-1802型电磁炉故障[J].家电维修,2010(7):24-24.

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离子束反应溅射沉积SiO_2薄膜的光学特性被引量：3

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