论文信息 - Fast Deposition of Microcrystalline Silicon Using High-Density SiH4 Microwave Plasma

Fast Deposition of Microcrystalline Silicon Using High-Density SiH4 Microwave Plasma

A novel microwave discharge utilizing a spokewise antenna was applied for the fast deposition of hydrogenated microcrystalline silicon (µc-Si:H) film from SiH4 and Ar without the H2 dilution method. Systematic deposition studies were employed with total pressure, H2 dilution ratio and flow rate of SiH4, Fr[SiH4], as variables, combined with optical emission spectroscopy (OES) and Langmuir probe characterizations. It was found that the deposition rate exhibits a maximum at 40–50 mTorr at the axial distance of 10 cm from the quartz glass plate and the film crystallinity strongly depend on the total pressure. Correlation among OES signal intensity, SiH, the intensity ratio, IHα /ISi* , deposition rate and film crystallinity were demonstrated. By combining the SiH4 depletion and lower pressure conditions, a high deposition rate of 40 A/s was achieved in µc-Si:H growth with high crystallinity and photosensitivity from SiH4 and Ar plasma.

[1] A. Matsuda,et al. High Rate Deposition of Microcrystalline Silicon Using Conventional Plasma-Enhanced Chemical Vapor Deposition , 1998 .

[2] Takashi Hirao,et al. Low Temperature Growth of Amorphous and Polycrystalline Silicon Films from a Modified Inductively Coupled Plasma , 1997 .

[3] Masahiro Tanaka,et al. Chemical Vapor Deposition of a-SiGe:H Films Utilizing a Microwave-Excited Plasma , 1987 .

[4] Atsushi Iwata,et al. An Experimental Pattern Recognition System Using Bidirectional Optical Bus Lines. , 1998 .

[5] Takuya Nakamura,et al. Enhanced Crystallinity at Initial Growth Stage of Microcrystalline Silicon on Corning #7059 Glass Using SiH2Cl2 , 1999 .