Title :
Performance and variability in multi-VT FinFETs using fin doping
Author :
Akarvardar, K. ; Young, C.D. ; Veksler, D. ; Ang, K. -W ; Ok, I. ; Rodgers, M. ; Kaushik, V. ; Novak, S. ; Nadeau, J. ; Baykan, M. ; Madan, H. ; Hung, P.Y. ; Ngai, T. ; Stamper, H. ; Bennett, S. ; Franca, D. ; Rao, M. ; Gausepohl, S. ; Majhi, P. ; Hobbs,
Author_Institution :
GlobalFoundries, Sunnyvale, CA, USA
Abstract :
The impact of fin doping (B, P, As) on FinFET device parameters is studied for high-K/midgap metal gate SOI FinFETs. For a fin width of ~25 nm, >;1 V VT modulation is demonstrated from accumulation mode (AM) to inversion mode (IM). IM FinFETs improve short channel FinFET electrostatics, on-off ratio, and VT variability compared to their undoped counterparts. The same parameters degrade in accumulation mode FinFETs. A VT modulation of ±0.25 V using fin B and P doping comes at the expense of 24% and 14% high field mobility penalty for NFET and PFET, respectively. For the same dose, Arsenic is found to modulate the VT more effectively than does Phosphorus. Basic modeling results show that for aggressively scaled (5 nm-wide) fins, the impact of single dopant atom on VT can be as high as 25 mV, severely challenging the viability of the technique towards the end of roadmap.
Keywords :
MOSFET; arsenic; electrostatics; semiconductor doping; FinFET device parameter; NFET; PFET; SOI FinFET; VT modulation; accumulation mode; arsenic; fin doping; high field mobility penalty; high-K/midgap metal gate; inversion mode; multiVT FinFET; on-off ratio; short channel FinFET electrostatics; single dopant atom; Degradation; Doping; FinFETs; Implants; Logic gates; Modulation; Sensitivity;
Conference_Titel :
VLSI Technology, Systems, and Applications (VLSI-TSA), 2012 International Symposium on
Conference_Location :
Hsinchu
Print_ISBN :
978-1-4577-2083-3
DOI :
10.1109/VLSI-TSA.2012.6210127
