Title :
N-FET HCI reliability improvement by nitrogen interstitialization and its mechanism
Author :
Shih, R. ; Chiang, M.C. ; Lin, H.C. ; Shiue, R.Y. ; Peng, Yeng ; Yue, J.T.
Author_Institution :
Reliability Assurance Dept.-1, Taiwan Semicond. Manuf. Co., Hsin-Chu, Taiwan
Abstract :
In this paper, we demonstrate a new process to improve the N-FET´s hot carrier lifetime more than 10 times, compared to that of traditional LDD formation process. It is composed of phosphorus (P31) and nitrogen (N14) co-implant through TEOS liner and followed by Si3N4 (SIN)/TEOS deposition. With this new method, the substrate current (Isub) can be reduced more than 2 times at the same drain current (Idsat). However, the quasi-static C-V measurement does not reveal the less interface state (Dit) generation during the stress for the capacitors with N14 implant. Through SIMS analysis, it is found that the doping profiles of B11 and P31 have been modulated at the LDD region. Therefore, we consider that N14 implant into the LDD region will enhance the transient enhanced diffusion (TED) effect, which leads to the Isub reduction and then improves hot carrier lifetime.
Keywords :
MOSFET; carrier lifetime; diffusion; doping profiles; hot carriers; interface states; interstitials; ion implantation; secondary ion mass spectra; semiconductor device reliability; LDD formation; N-FET HCI reliability; SIMS analysis; Si:P,N; Si3N4; Si3N4/TEOS deposition; TEOS liner; capacitor; doping profile; drain current; hot carrier lifetime; interface state generation; nitrogen interstitialization; phosphorus/nitrogen co-implantation; quasi-static C-V characteristics; substrate current; transient enhanced diffusion; Capacitance-voltage characteristics; Capacitors; Doping profiles; Hot carriers; Human computer interaction; Implants; Interface states; Nitrogen; Silicon compounds; Stress measurement;
Conference_Titel :
Reliability Physics Symposium Proceedings, 2002. 40th Annual
Print_ISBN :
0-7803-7352-9
DOI :
10.1109/RELPHY.2002.996647
