New channel engineering for sub-100 nm MOS devices considering both carrier velocity overshoot and statistical performance fluctuations

We introduce a new channel engineering design for nano-region SOI and bulk MOSFETs taking into account both carrier velocity overshoot and statistical performance fluctuations. For types of both device, in the high gate drive region, the high field carrier velocity υ_e is not degraded at channel dopant density N_a lower than 1×10¹⁷ cm^-3, according to an experimental universal relationship between υ_e and the low field mobility. On the other hand, there is a most suitable N_a condition for suppression of statistical threshold voltage fluctuations. This most suitable N_a is slightly higher for SOI devices than that for bulk MOSFETs, but it is lower than 1×10 ¹⁷ cm^-3 in both cases. Therefore, this most suitable N_a condition is consistent with the above N_a condition for carrier velocity. Consequently, new N_a conditions for nano region devices are introduced in this study. N_a should be designed to be of the order of 1×10¹⁶ cm^-3 rather than rising by the usual scaling rule, but it is necessary to suppress the short channel effects of SOI and bulk MOSFETs by scaling down the SOI thickness, and to use source/drain junction depth scaling or surface low impurity structures in bulk MOSFETs, respectively