Title :
GIDL (gate-induced drain leakage) and parasitic schottky barrier leakage elimination in aggressively scaled HfO/sub 2/TiN FinFET devices
Author :
Hoffmann, T. ; Doornbos, G. ; Ferain, I. ; Collaert, N. ; Zimmerman, P. ; Goodwin, M. ; Rooyackers, R. ; Kottantharayil, A. ; Yim, Y. ; Dixit, A. ; De Meyer, K. ; Jurczak, M. ; Biesemans, S.
Author_Institution :
IMEC, Heverlee
Abstract :
We demonstrate that for aggressively scaled FinFETs, with 2nm HfO 2 and TiN metal gate (i.e., workfunction close to midgap), several parasitic leakage mechanisms that impact the off-state current become dominant. We provide a detailed characterization of these mechanisms as well as design guidelines for eliminating them by careful junction dopant placement and S/D silicide engineering in order to achieve high Ion/Ioff ratios. Up to 20times GIDL reduction is achieved with minimum drive loss with asymmetric extensions. Using selective epitaxy on S/D, suppression of parasitic Schottky effects is also demonstrated resulting in a Ioff reduction of 10000times
Keywords :
MOSFET; Schottky barriers; hafnium compounds; leakage currents; titanium compounds; 2 nm; FinFET devices; HfO2-TiN; gate-induced drain leakage; parasitic Schottky barrier leakage elimination; silicide engineering; Dielectrics; FinFETs; Gate leakage; Guidelines; Hafnium oxide; Instruments; MOS devices; Schottky barriers; Silicon; Tin;
Conference_Titel :
Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-9268-X
DOI :
10.1109/IEDM.2005.1609455
