Title :
Electrical properties of 1.5-nm SiON gate-dielectric using radical oxygen and radical nitrogen
Author :
Togo, Mitsuhiro ; Watanabe, Koji ; Yamamoto, Toyoji ; Ikarashi, Nobuyuki ; Tatsumi, Toru ; Ono, Haruhiko ; Mogami, Tohru
Author_Institution :
Silicon Syst. Res. Labs., NEC Corp., Kanagawa, Japan
fDate :
11/1/2002 12:00:00 AM
Abstract :
We have developed a low-leakage and highly reliable 1.5-nm SiON gate-dielectric by using radical oxygen and nitrogen. In this development, we introduce a new method for determining an ultrathin SiON gate-dielectric thickness based on the threshold voltage dependence on the substrate bias in MOSFETs. It was found that oxidation using radical oxygen followed by nitridation using radical nitrogen provides the 1.5-nm (oxide equivalent thickness) SiON, in which leakage current is two orders of magnitude less than that of 1.5-nm SiO2 without degrading device performance in NMOSFETs. The 1.5-nm (oxide equivalent thickness) SiON was also found to be ten times more reliable than 1.5-nm SiO2.
Keywords :
MOSFET; dielectric thin films; free radical reactions; leakage currents; nitridation; oxidation; semiconductor device breakdown; semiconductor device reliability; silicon compounds; 1.5 nm; MOSFET substrate bias; NMOSFETs; SiON; SiON gate-dielectric; electrical properties; leakage current; low-leakage highly reliable gate-dielectric; nitridation; oxidation; oxide equivalent thickness; radical nitrogen; radical oxygen; threshold voltage dependence; ultrathin SiON gate-dielectric thickness; Boron; Degradation; Dielectric substrates; Leakage current; MOS devices; MOSFETs; Nitrogen; Oxygen; Thickness measurement; Threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2002.804695
