The interaction of p- and n-type crystalline silicon [c-Si (100)], with atomic hydrogen produced by a remote radiofrequency (13.56 MHz) H(2) plasma has been investigated in real time using in situ spectroscopic ellipsometry. The effects of substrate doping, temperature and time on the c-Si surface modifications are discussed. A thicker hydrogenated surface layer forms for n-type Si. This hydrogenated layer is subsequently etched by further exposure to hydrogen. A kinetic model based on the competition between hydrogen insertion and silicon etching is proposed to explain modifications of c-Si, and the rate constants of the hydrogen insertion and silicon etching processes are determined.
Real time monitoring of the interaction of Si (100) with atomic hydrogen: the H-insertion/Si-etching kinetic model explaining Si surface modifications
GV Bianco;M Losurdo;MM Giangregorio;P Capezzuto;G Bruno
2009
Abstract
The interaction of p- and n-type crystalline silicon [c-Si (100)], with atomic hydrogen produced by a remote radiofrequency (13.56 MHz) H(2) plasma has been investigated in real time using in situ spectroscopic ellipsometry. The effects of substrate doping, temperature and time on the c-Si surface modifications are discussed. A thicker hydrogenated surface layer forms for n-type Si. This hydrogenated layer is subsequently etched by further exposure to hydrogen. A kinetic model based on the competition between hydrogen insertion and silicon etching is proposed to explain modifications of c-Si, and the rate constants of the hydrogen insertion and silicon etching processes are determined.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
