Title :
Vacancy Generation by Laser Preirradiation for Junction Leakage Suppression
Author :
Tan, Dexter Xueming ; Ong, Kuang Kian ; Pey, Kin-Leong ; Wang, Xincai ; Lo, Guo-Qiang ; Ng, Chee Mang ; Chan, Lap ; Zheng, Hong Yu
Author_Institution :
Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore, Singapore
Abstract :
Vacancy generation by laser preirradiation on silicon substrate before implantation for advanced junction engineering was demonstrated. Amorphized p+/n junction diodes subjected to preimplant laser irradiation show a twofold reduction on the off-state leakage current and a two-time improvement on the on-state current compared to control devices without any preirradiation. The defect-removal mechanism is achieved by the recombination of excess vacancies trapped at the maximum laser melt depth as a result of the molten silicon recrystallization with the implantation-generated interstitials. The effectiveness of laser-generated vacancies in annihilating residual defects is evident in the suppression of junction leakage current.
Keywords :
amorphous state; elemental semiconductors; interstitials; ion implantation; laser beam effects; leakage currents; p-n junctions; recrystallisation; semiconductor diodes; silicon; vacancies (crystal); Si; amorphized p+-n junction diodes; defect-removal mechanism; implantation; interstitials; laser preirradiation; off-state leakage current; on-state current; recrystallization; residual defects; silicon substrate; vacancy; Interstitials; laser preirradiation; preamorphization implantation (PAI); vacancies;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2009.2032567
