Title :
Layout-Related Stress Effects on Radiation-Induced Leakage Current
Author :
Rezzak, Nadia ; Schrimpf, Ronald D. ; Alles, Michael L. ; Zhang, En Xia ; Fleetwood, Daniel M. ; Li, Yanfeng Albert
Author_Institution :
EECS Dept., Vanderbilt Univ., Nashville, TN, USA
Abstract :
The effects of shallow-trench-isolation-induced mechanical stress on radiation-induced off-state leakage current are reported in 90-nm NMOS devices. The radiation-induced leakage current increases with increasing active device-to-isolation spacing. The leakage current also depends on channel width; narrow devices exhibit less leakage before irradiation, but more after irradiation. These geometrical factors affect the mechanical stress in the device, which impact the dopant diffusion and activation and the charge trapping in the STI oxide. The combined effects of these layout-related phenomena affect the sensitivity to radiation-induced charge.
Keywords :
MOS integrated circuits; integrated circuit layout; isolation technology; leakage currents; radiation hardening (electronics); NMOS device; active device-to-isolation spacing; charge trapping; geometrical factors; layout-related stress effect; radiation-induced leakage current; radiation-induced off-state leakage current; shallow-trench-isolation-induced mechanical stress; size 90 nm; Leakage current; MOSFETs; Sensitivity; Stress; Active space distance; MOSFET off-state leakage current; mechanical stress; shallow trench isolation (STI); sidewall doping; total ionizing dose (TID);
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2010.2083690
