Title :
Hot-carrier-induced degradation for partially depleted SOI 0.25-0.1 μm CMOSFET with 2-nm thin gate oxide
Author :
Yeh, Wen-Kuan ; Wang, Wen-Han ; Fang, Yean-Kuen ; Chen, Mao-Chieh ; Yang, Fu-Liang
Author_Institution :
Dept. of Electr. Eng., Nat. Univ. of Kaohsiung, Taiwan
fDate :
12/1/2002 12:00:00 AM
Abstract :
Hot-carrier-induced degradation of partially depleted SOI CMOSFETs was investigated with respect to body-contact (BC-SOI) and floating-body (FB-SOI) for channel lengths ranging from 0.25 down to 0.1 μm with 2 nm gate oxide. It is found that the valence-band electron tunneling is the main factor of device degradation for the SOI CMOSFET. In the FB-SOI nMOSFET, both the floating body effect (FBE) and the parasitic bipolar transistor effect (PBT) affect the hot-carrier-induced degradation of device characteristics. Without apparent FBE on pMOSFET, the worst hot-carrier stress condition of the 0.1 μm FB-SOI pMOSFET is similar to that of the 0.1 μm BC-SOI pMOSFET.
Keywords :
MOSFET; hot carriers; semiconductor device reliability; silicon-on-insulator; tunnelling; 0.25 to 0.1 micron; 2 nm; CMOSFET; Si; body-contact SOI; channel lengths; device degradation; floating-body SOI; gate oxide; hot-carrier-induced degradation; parasitic bipolar transistor effect; partially depleted SOI; valence-band electron tunneling; Bipolar transistors; CMOSFETs; Degradation; Hot carrier effects; Hot carriers; Impact ionization; MOSFET circuits; Substrates; Threshold voltage; Tunneling;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2002.805617
