CVD金刚石膜{100}取向在改进化学反应模型下生长的原子尺度模拟

稀有金属材料与工程, 2002, 31(5): 349-352.

CVD金刚石膜{100}取向在改进化学反应模型下生长的原子尺度模拟

安希忠 ^1, , 张禹 ^2, , 刘国权 ^3, , 秦湘阁 ^4, , 王辅忠 ^5, , 刘胜新 ^6,

1.北京科技大学,北京,100083

2.北京科技大学,北京,100083

3.北京科技大学,北京,100083

4.北京科技大学,北京,100083

5.北京科技大学,北京,100083

6.北京科技大学,北京,100083

基金项目: 北京科技大学校科研和教改项目(2001060879) 国家自然科学基金(59872003)

关键词： CVD金刚石膜 , KMC方法 , 原子尺度 , 化学反应模型 , 生长机制

An Atomic Scale Simulation on {100} Oriented CVD Diamond Film Grown under Modified Chemical Reaction Model

建立了CVD金刚石膜{100}取向生长过程中的化学反应模型,表面吸附生长机制以沟槽处碳氢组元加入的机制为主,并用改进的KMC方法在原子尺度上模拟了该模型下(100)表面的生长过程,给出了衬底温度和甲基浓度等操作参数对膜质量的影响.结果表明,该化学反应模型能够较实际地揭示{100}取向CVD金刚石膜的生长.

参考文献

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材料期刊网

CVD金刚石膜{100}取向在改进化学反应模型下生长的原子尺度模拟

An Atomic Scale Simulation on {100} Oriented CVD Diamond Film Grown under Modified Chemical Reaction Model

参考文献