A defect behavior in boron shallow junction formation of Si under low-temperature pre-anneal and non-melt-laser anneal

2010 International Workshop on Junction Technology Extended Abstracts Pub Date : 2010-05-10 DOI:10.1109/IWJT.2010.5474994
Suhei Hara, Yusuke Shigenaga, S. Matsumoto, G. Fuse, S. Sakuragi
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Abstract

Physical relationship among regrowth of damaged layer, dopant activation and dopant diffusion has been investigated in the formation of boron shallow junction of Si under low-temperature pre-annealing (PA) and non-melt laser annealing (LA). The degree of crystal regrowth was adjusted with pre-annealing time. It is clarified that the regrowth of amorphous Si layer up to the junction depth has an important key to realize the low leakage current and to suppress the unnecessary B diffusion after LA.
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低温预退火和非熔融激光退火下硅硼浅结形成的缺陷行为
研究了低温预退火(PA)和非熔体激光退火(LA)制备硼浅结过程中损伤层再生、掺杂活化和掺杂扩散之间的物理关系。晶粒再生程度随预退火时间的延长而变化。阐明了非晶硅层在结深处的再生长是实现低漏电流和抑制LA后不必要的B扩散的重要关键。
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2010 International Workshop on Junction Technology Extended Abstracts
2010 International Workshop on Junction Technology Extended Abstracts
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