化学气相沉积(CVD)法可制备高纯度、近似元件形状、大面积的块体材料,与制备薄膜的CVD过程相比,该过程存在长时间沉积稳定性、厚度均匀性及光学质量均匀性等问题.本文采用简化装置对CVD工艺过程进行物理模拟,探讨不同工艺参数下沉积室内部气体流型的变化,分析流型对沉积过程的影响.
参考文献
| [1] | 赵秀丽.红外系统设计[M].北京:机械工业出版社,1986:368-414. |
| [2] | Dan Hanis.Infrared Windows and Dome Material[M].San Diago, Academic Press,1992 |
| [3] | Keith L Lewis;Gordon S Arthur;Stephen A Banyard .Hydrogen-related defects in vapour-deposited zinc sulphide[J].Journal of Crystal Growth,1984,66:125-136. |
| [4] | Savage J A;Lewis K L;Pitt A M.The role of a CVD research reactor in studies of the growth and physical properties of ZnS infrared optical material[A].,1984:47-51. |
| [5] | 余怀之;郑岳华 .[J].激光与红外,1997,06:55-58. |
| [6] | Takahashi R;Koga Y;Sugawara K.Gas Flow Pattern and Mass Transfer Analysis in a Horizontal Flow Reactor for Chemical Vapor deposition[J].Journal of the Electrochemical Society:Solid state science and Technology,1972:1406-1412. |
| [7] | Wang C A;Groves S H;Palmateer S C et al.Flow Visualization Studies for Optimization of Omvpe Reactor Design[J].Journal of Crystal Growth,1986,77:136-143. |
| [8] | Palmateer S C;Groves S H;Wang C A et al.Use of flow visualization and tracer gas studies for designing an InP/InGaAsP omvpe reactor[J].Journal of Crystal Growth,1987,83:202-210. |
| [9] | 张兆顺;崔桂香.流体力学[M].北京:清华大学出版社,1999 |
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