Abstract
A plasma doping system for semiconductor ion implantation is described. The target to be implanted is placed directly in the plasma and then biased to a negative potential to accelerate the positive ions into the target. A wafer bias of up to −5 kV with a BF3 source gas are used to implant boron ions into 150 mm diameter Si wafers. Data are presented showing sub-100 nm shallow p+–n junction with good sheet resistance uniformity and dose control repeatability. A high dose rate of ≳1015 cm−2 per minute at low energy (<5 keV) can be readily achieved. Excellent charging test device performance as well as surface contamination control are discussed. All of these results demonstrate the attractiveness of this unique alternate doping technique.
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