Low-dose n-type nitrogen implants in 6H–SiC have been studied using the Hall effect. Previous studies of doping by implantation in SiC have concentrated on heavily doped layers such as required for transistor sources and drains. Here, we focus on more lightly doped layers, e.g., such as required for the active regions of high-voltage power devices. The low-dose N implants are found to activate more readily than high doses. Almost ideal N-implanted layers with a donor density of ∼1×1017/cm3 and a low residual acceptor density from implant damage of only ∼1.5×1015/cm3 have been obtained after a 1400 °C anneal.

Topics
Hall effect, Transistors, Chemical elements, Carbides
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