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32nm节点极紫外光刻掩模的集成研制 被引量:9

Integrated Development of Extreme Ultraviolet Lithography Mask at 32nm Node
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摘要 报道了国内首块用于极紫外投影光刻系统的6inch(1inch=2.54cm)标准极紫外光刻掩模。论述了32nm节点6inch标准极紫外光刻掩模的设计方案,及掩模衬底、反射层、吸收层材料的工艺特性研究,对缺陷控制及提高掩模效率的方法进行了分析。运用时域有限差分法对掩模的光学特性进行了仿真,根据仿真结果确定合适的Cr吸收层厚度。运用电子束光刻技术进行了掩模的图形生成,针对其中的电子束光刻临近效应进行了蒙特卡罗理论分析,用高密度等离子体刻蚀进行了图形转移,所制造的掩模图形特征尺寸小于100nm,特征尺寸控制精度优于20nm,满足技术设计要求。 The first domestic 6 inch (1 inch=2.54 cm) extreme ultraviolet lithography (EUVL) mask for EUVL system is reported. The design of the 6 inch EUVL mask at 32 nm node is described, process characteristics of substrate materials, buffer and absorber layers are investigated in detail, and mask with low defective rate and high efficiency is designed. Suitable Cr absorber layer thickness is decided according to the optical property simulation by finite-difference time-domain (FDTD) method. Electron beam proximity effect is analyzed by using Monte Carlo simulation method. Electron beam lithography is used to generate patterns, and high density plasma etching is used to translate patterns to the Cr absorber layer and Si02 buffer layer. EUVL mask with critical dimension below 100 nm and critical dimension accuracy less than 20 nm is obtained, which meets the requirements of technical design specifications.
作者 杜宇禅 李海亮 史丽娜 李春 谢常青
机构地区 中国科学院微电子研究所纳米加工与新器件集成研究室 中国科学院长春光学精密机械与物理研究所
出处 《光学学报》 EI CAS CSCD 北大核心 2013年第10期320-326,共7页 Acta Optica Sinica
基金 国家自然科学基金(61107032 61275170)
关键词 X射线光学 极紫外投影光刻 掩模 电子束光刻 32 nm节点 时域有限差分法 X-ray optics extreme ultraviolet lithography mask electron beam lithography 32 nm node finite- difference time-domain method
分类号 O436 [机械工程—光学工程]
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参考文献25

  • 1J Benschop, V Banine, S I.ok, et al: Extreme ultraviolet lithography: status and prospects [J]. J Vac Sci Technol B, 2008, 26(6): 2204-2207.
  • 2Tom Vandeweyer, Johan De Backer. Janko Versluijs, et al: Patterning challenges in setting up a 16 nm node 6T SRAM device using EUV lithography [C]. SPIE. 2011. 7969: 79691K.
  • 3C W Owyn, R Stulen, D Sweeney, et al: Extreme ultraviolet lithography [J]. J Vac Sci Technol B, 1998, 16(6): 3142-3149.
  • 4B La Fontaine, Y Deng, R H Kim, et al: Extreme ultraviolet lithography: from research to manufacturing [J]. J Vae Sci Technol B, 2007, 25(6): 2089-2093.
  • 5C Wonil, P A Kearney, E M Gullikson, a al: Inspection with the Lasertec M7360 at the SEMATECH mask blank development center [C]. SHE, 2007, 6517: 65170D.
  • 6O Wood, J Arnold, T Brunner, et al: Insertion strategy for EUVlithography [C]. SPIE, 2012, 8322: 832203.
  • 7H Shite, K Matsunaga, K Nafus, et al: Latest cluster performance for EUV lithography [C]. SPIE, 2012, 8322: 83222Y.
  • 8J V Hermans, D Laidler, P Fouhert, et al: Progress in EUV lithography towards manufacturing from an exposure tool perspective [C]. SPIE, 2012, 8322: 832202.
  • 9J Chan-Uk, P Kearney, A Ma, et al: Enabling defect-free masks for extreme ultraviolet lithography [C]. SPIE. 2007, 6533: 653310.
  • 10S Wurm. Transition to EUV lithography [ C ]. IEEE International Symposium on VLSI Technology, Systems and Application, 2012.

二级参考文献121

  • 1陈宝钦.中国制版光刻与微/纳米加工技术的发展历程回顾与现状[J].微细加工技术,2006(1):1-2. 被引量:7
  • 2张荣君,姚明远,郑玉祥,陈良尧.反射式RAP型椭圆偏振光谱仪及其应用[J].实验室研究与探索,2010,29(3):30-34. 被引量:4
  • 3郭立萍,黄惠杰,王向朝.光学光刻中的离轴照明技术[J].激光杂志,2005,26(1):23-25. 被引量:22
  • 4古德曼. 傅里叶光学导论[M]. 秦克诚等译. 北京:电子工业出版社, 2006. 50-55
  • 5[1]Durmond J, Youtz J P. An X - ray method for determining rate of diffusion in solid state[J ]. J Appl Phys, 1940,11 (5): 357-365.
  • 6[2]Dinklage J. Youtz J P. An X - ray diffraction and diffusion in metal filming layered structures[J ]. J Appl Phys, 1963,34(9) :2633 - 2635.
  • 7[3]Dinklage J. X- ray diffraction by multilayer thin film structures and their diffusion[ J ]. J Appl Phys, 1967,38 (9):3781 - 3785.
  • 8[4]Spiller E. Low- loss reflection coatings using absorbing materials[J]. Appl Phys Lett, 1972,20(9) :365 - 369.
  • 9[5]Spiller E. Reflective multilayer coatings for the far UV region[J]. Appl Opt, 1976,15(10) :2333 - 2338.
  • 10[6]Haelbich R P,Kunz C. X- ray multilayer interference mirrors for the XUV range around 100 eV photon energy[J]. Opt Comm, 1976,17(3) :287 - 292.

共引文献49

同被引文献129

  • 1郭立萍,黄惠杰,王向朝.光学光刻中的离轴照明技术[J].激光杂志,2005,26(1):23-25. 被引量:22
  • 2H Meiling, W de Boeij, F Bornebroek, et al..From performance validation to volume introduction of ASML′s NXE platform [C].SPIE, 2012, 8322: 83221G.
  • 3M Lowisch, P Kuerz, O Conradi, et al..Optics for ASML′s NXE:3300B platform [C].SPIE, 2013, 8679: 86791H.
  • 4M Goldstein, R Hudyma, P Naulleau, et al..Extreme-ultraviolet microexposure tool at 0.5 NA for sub-16 nm lithography [J].Opt Lett, 2008, 33(24): 2995.
  • 5H Glatzel, D Ashworth, M Bremer, et al..Projection optics for extreme ultraviolet lithography (EUVL) micro-field exposure tools (METs) with a numerical aperture of 0.5 [C].SPIE, 2013, 8679: 867917.
  • 6E Tejnil, K A Goldberg, J Bokor.Phase effects owing to multilayer coatings in a two-mirror extreme-ultraviolet schwarzschild objective [J].Appl Opt, 1998, 37(34): 8021-8029.
  • 7C Liang, M R Descour, J M Sasian, et al..Multilayer-coating-induced aberrations in extreme-ultraviolet lithography optics [J].Appl Opt, 2001, 40(1): 129-135.
  • 8S Edlou, L Sun, C Synborski.Coating induced phase aberration in a Schwarzschild objective [C].SPIE, 2008, 7067: 706709.
  • 9ORA.Defining Coating and Cement Data [CP].in Code V Electronic Document Library, Optical Research Associates, 2009, Vol.II: 7-28-7-29.
  • 10ZEMAX.Defining coatings in ZEMAX [CP].in ZEMAX Optical Design Program User′s Guide, ZEMAX Development Corporation, 2009, Ch.20: 583-597.

引证文献9

二级引证文献39

光学学报
2013年 第10期

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