Title :
The impact of deuterated CMOS processing on gate oxide reliability
Author :
Hof, A.J. ; Hoekstra, E. ; Kovalgin, A.Y. ; van Schaijk, R. ; Baks, W.M. ; Schmitz, J.
Author_Institution :
MESA+ Res. Inst., Univ. of Twente, Enschede, Netherlands
Abstract :
In recent literature, a controversy has arisen over the question whether deuterium improves the stability of the MOS gate dielectric. In particular, the influence of deuterium incorporation on the bulk oxide quality is not clear. In this letter, deuterium or hydrogen is introduced during either the gate oxidation, postoxidation anneal, and/or the postmetal anneal (PMA). The oxide bulk degradation was evaluated using charge-to-breakdown and stress-induced leakage current; and the oxide interface degradation using hot-carrier degradation and low-frequency noise. The obtained results show that the oxide bulk does not benefit from the presence of deuterium, regardless of the stage of deuterium introduction, or the gate oxide thickness. The oxide interface is more stable only when deuterium is introduced in the PMA.
Keywords :
CMOS integrated circuits; MOS capacitors; MOSFET; Weibull distribution; annealing; deuterium; electric breakdown; hot carriers; leakage currents; noise; oxidation; MOS capacitors; MOS gate dielectric; MOSFET; Weibull distributions; charge-to-breakdown current; deuterated CMOS processing; deuterium; dielectric breakdown; gate oxidation; gate oxide reliability; gate oxide thickness; hot-carrier degradation; hot-carriers; hydrogen; low-frequency noise; oxide bulk degradation; post-metal anneal; post-oxidation anneal; stress-induced leakage current; Annealing; CMOS process; Degradation; Deuterium; Dielectrics; Hot carriers; Hydrogen; Leakage current; Oxidation; Stability; Annealing; MOS capacitors; MOSFETs; Weibull distributions; deuterium; dielectric breakdown; hot-carriers; leakage currents; noise; oxidation;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.854290
