Stimulated photoluminescence emission and trap states in Si/SiO
                    <sub>2</sub>
                    interface formed by irradiation of laser

An experimental study on the photocarrier radiometry signals of As + ion implanted silicon wafers before and after rapid thermal annealing is performed. The dependences of photocarrier radiometry amplitude on ion implantation dose (1×10 11 -1×10 16 /cm 2 ), implantation energy (20-140 keV) and subsequent isochronical annealing temperature (500-1100 • C are investigated. The results show that photocarrier radiometry signals are greatly enhanced for implanted samples annealed at high temperature, especially for those with a high implantation dose. The reduced surface recombination rate resulting from a high built-in electric field generated by annealing-activated impurities in the pn junction is believed to be responsible for the photocarrier radiometry signal enhancement. Photocarrier radiometry is contactless and can therefore be used as an effective in-line tool for the thermal annealing process monitoring of the ion-implanted wafers in semiconductor industries.

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Stimulated photoluminescence emission and trap states in Si/SiO ₂ interface formed by irradiation of laser

Cited by 4 publications

References 11 publications

Role of oxygen concentration distribution and microstructure in luminescent properties of laser-irradiated silicon

Role of oxygen concentration distribution and microstructure in luminescent properties of laser-irradiated silicon

Response to “Comment on ‘Stimulated emission from trap electronic states in oxide of nanocrystal Si’ ” [Appl. Phys. Lett. 93, 066101 (2008)]

Thermal annealing induced photocarrier radiometry enhancement for ion implanted silicon wafers

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Stimulated photoluminescence emission and trap states in Si/SiO 2 interface formed by irradiation of laser

Cited by 4 publications

References 11 publications

Role of oxygen concentration distribution and microstructure in luminescent properties of laser-irradiated silicon

Role of oxygen concentration distribution and microstructure in luminescent properties of laser-irradiated silicon

Response to “Comment on ‘Stimulated emission from trap electronic states in oxide of nanocrystal Si’ ” [Appl. Phys. Lett. 93, 066101 (2008)]

Thermal annealing induced photocarrier radiometry enhancement for ion implanted silicon wafers

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Stimulated photoluminescence emission and trap states in Si/SiO ₂ interface formed by irradiation of laser