论文信息 - Defect Production in Phosphorus Ion-Implanted SiO2(43 nm)/Si Studied by a Variable-Energy Positron Beam

Defect Production in Phosphorus Ion-Implanted SiO2(43 nm)/Si Studied by a Variable-Energy Positron Beam

Vacancy-type defects in 150-keV P+-implanted SiO2 (43 nm)/Si(100) specimens were studied by a variable-energy positron beam. The results show that the damaged layer induced by P+-implantation extends far beyond the stopping range of phosphorus ions. From isochronal annealing experiments, it was found that oxygen atoms recoiled from the SiO2 layer into the Si substrate, forming stable oxygen-vacancy complexes in the substrate near the interface. The final recovery of vacancy-type defects was observed at 1200°C.

[1] A. Uedono,et al. Characterization of Diamond Films Synthesized on Si from a Gas Phase in Microwave Plasma by Slow Positrons , 1990 .

[2] A. Uedono,et al. A Study of Vacancy-Type Defects in B+-Implanted SiO2/Si by a Slow Positron Beam , 1989 .

[3] Lynn,et al. Microvoids at the SiO2/Si interface. , 1989, Physical review. B, Condensed matter.

[4] Moser,et al. Positron trapping at vacancies in electron-irradiated Si at low temperatures. , 1989, Physical review. B, Condensed matter.

[5] Winter,et al. Investigation of micropores in amorphous hydrogenated carbon by a pulsed positron beam. , 1988, Physical review letters.

[6] Chen,et al. Variable-energy positron-beam studies of Ni implanted with He. , 1986, Physical review. B, Condensed matter.