Title :
Super-halo asymmetric vertical pass transistor design for ultra-dense DRAM technologies
Author :
Chidambarrao, D. ; McStay, K. ; Weybright, M. ; Mandelma, J. ; Beintner, J. ; Li, Y. ; Crabbé, E.
Author_Institution :
IBM Semicond. Res. & Dev. Center, Hopewell Junction, NY, USA
Abstract :
Device design of the super-halo asymmetric vertical pass transistor embedded in a cost-efficient, litho-friendly 8F2 DRAM cell is described. This device not only retains the double-gate feature that provides twice the drive current, but also improves write-back performance critical for DRAM applications while meeting the stringent 1 fA off-current requirement. The key to achieving this degree of optimization is a super-halo angled Vt implant that produces multi-dimensionally graded well doping. The lateral grading provides small body effect and superior write-back performance that facilitates scaling with low wordline swings. The vertical grading leads to reduced short channel effect and de-coupled channel and node doping that not only reduces junction leakage but also allows aggressive scaling of the vertical device channel length.
Keywords :
DRAM chips; field effect transistors; leakage currents; 1 fA; aggressive scaling; decoupled channel; drive current; halo angled Vt implant; halo asymmetric vertical pass transistor design; junction leakage current; lithofriendly 8F2 DRAM cell; multi-dimensionally graded doping; node doping; reduced short channel effect; stringent off-current; superior write-back performance; ultradense DRAM technologies; vertical device channel length; wordline swings; Boron; Doping; Educational institutions; Implants; Microelectronics; Planar arrays; Random access memory;
Conference_Titel :
VLSI Technology, Systems, and Applications, 2003 International Symposium on
Print_ISBN :
0-7803-7765-6
DOI :
10.1109/VTSA.2003.1252542
