Man-Ping Cai scite author profile

The transition from a planar to a FinFET device structure has changed device doping requirements. The fin sidewall doping and activation, crystallinity control of the fin, junction profile and leakage control on the fin are new challenges. With continuous scaling of FinFET technology, the narrower fins become more prone to crystallinity damage by ion implant, and lead to increases in junction leakage and fin parasitic resistance. We have introduced hot implant as a superior doping technique to room-temperature implant for arsenic source drain extension (SDE) and halo implants on vertical narrow fins. We have demonstrated for the first time that hot SDE implant on 6nm CD vertical fins produced single crystalline fins and enabled 5x improvement in fin line resistance and more than 10x reduction in junction leakage compared with a room-temperature SDE implant.

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Demonstration of 32nm half-pitch electrical testable NAND FLASH patterns using self-aligned double patterning

Sun

Bencher

Chen

et al. 2009

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Improvement of Si doping of In<inf>0.53</inf>Ga<inf>0.47</inf>As fin by heated implant

Wood

Hatem

Bao

et al. 2015

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Sub-20 nm trench patterning with a hybrid chemical shrink and SAFIER process

Chen

et al. 2009

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Man-Ping Cai

Directed self-assembly defectivity assessment. Part II

Fin Doping by Hot Implant for 14nm FinFET Technology and Beyond

Demonstration of 32nm half-pitch electrical testable NAND FLASH patterns using self-aligned double patterning

Improvement of Si doping of In<inf>0.53</inf>Ga<inf>0.47</inf>As fin by heated implant

Sub-20 nm trench patterning with a hybrid chemical shrink and SAFIER process

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