Title :
A scaled floating body cell (FBC) memory with high-k+metal gate on thin-silicon and thin-BOX for 16-nm technology node and beyond
Author :
Ban, Ibrahim ; Avci, Uygar E. ; Kencke, David L. ; Chang, Peter L D
Author_Institution :
Component Res., Intel Corp., Hillsboro, OR
Abstract :
A scaled, undoped, thin-BOX, planar FBC technology is demonstrated for the first time, featuring 10-nm BOX, 25-nm SOI, high-k, metal gate, separate back-gate (BG) doping, and raised source-drain epitaxy. Retention of a minimum 3-muA sensing window for 100 ms, in devices with 60-nm gate-length (Lg) and 70-nm diffusion width (W), represents the best retention time of all sub-100-nm FBC devices. FBC scaling is predicted to be feasible at least to 40-nm Lg, enabling memory cell sizes much smaller than 6T-SRAM at 16-nm technology node. Functional 32-nm Lg devices suggest the feasibility at the 11-nm technology node.
Keywords :
semiconductor doping; semiconductor storage; silicon; silicon-on-insulator; SOI; back-gate doping; high-k+metal gate; scaled floating body cell memory; source-drain epitaxy; thin-BOX; thin-silicon BOX; Doping; High K dielectric materials; Logic devices; Manufacturing processes; Predictive models; Resource description framework; Scalability; Semiconductor process modeling; Space technology; Virtual manufacturing;
Conference_Titel :
VLSI Technology, 2008 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4244-1802-2
Electronic_ISBN :
978-1-4244-1803-9
DOI :
10.1109/VLSIT.2008.4588575
