低温沉积金刚石薄膜的红外光学性能
Infrared Optical Properties of Diamond Films Deposited at Low Temperatures
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摘要: 采用微波等离子体CVD两段式低温沉积技术,在700~400℃温度范围内沉积了红外增透性良好的金刚石薄膜,结果表明,采用高甲烷浓度可以实现较低沉积温度下的高密度形核,获得光学平整的金刚石薄膜,施加直流偏压的方法在低温下对金刚石形核的促进作用不明显,实验观测到的最大增透率达20%,最大红外透射率接近80%,可满足不同气氛下金刚石容器的应用。Abstract: Optical smooth diamond films have been deposited at low temperatures (400~700℃) and their IR properties were studied for infrared optical coating applications.High density diamond nucleation was realized by a "Two Step Process" in which a high methane concentration was used for nucleation enhancement. However, biasing was shown insufficient for nucleation enhancement at low temperatures.Transmittance as high as 80% for diamond coated single crystal silicon wafer was observed.This level of IR transmission is good enough for practical applications of Si windows in a severe atmosphere.