Title :
Post-polysilicon gate-proces-induced degradation on thin gate oxide
Author :
Chao Sung Lai ; Tan Fu Lei ; Chune Len Lee ; Tien Sheng Chao
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
The post-polysilicon gate-process-induced degradation on the underlying gate oxide is studied. The degradation includes an increase in the electron trapping rate and a decrease in the charge-to-breakdown, Q/sub bd/, of the gate oxide. It is found that N/sub 2/O nitrided gate oxide is more robust than O/sub 2/ gate oxide in resisting the degradation. Also, to grow a thin polyoxide on the polysilicon-gate in N/sub 2/O rather than in O/sub 2/ lessens the degradation on the underlying gate oxide. It is nitrogen, which diffuses through the polysilicon gate and piles up at both polysilicon/oxide and oxide/silicon-substrate interfaces, that improves the oxide quality for the N/sub 2/O process.<>
Keywords :
MIS devices; dielectric thin films; electric breakdown; electron traps; interface states; semiconductor-insulator boundaries; N/sub 2/O; N/sub 2/O nitrided gate oxide; O/sub 2/; O/sub 2/ gate oxide; Si-SiO/sub 2/; SiNO-Si; charge-to-breakdown reduction; electron trapping rate; oxide/Si substrate interface; polysilicon/oxide interface; post-polysilicon gate-proces-induced degradation; thin gate oxide; thin polyoxide; Annealing; Chaos; Degradation; Design for quality; Dielectrics; EPROM; Electron traps; Nitrogen; Robustness; Stress;
Journal_Title :
Electron Device Letters, IEEE
