Title :
Long-term reliability degradation of ultrathin dielectric films due to heavy-ion irradiation
Author :
Choi, B.K. ; Fleetwood, D.M. ; Schrimpf, R.D. ; Massengill, Lloyd W. ; Galloway, K.F. ; Shaneyfelt, M.R. ; Meisenfieimer, T.L. ; Dodd, P.E. ; Schwank, J.R. ; Lee, Y.-M. ; John, R.S. ; Lucovsky, G.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Vanderbilt Univ., Nashville, TN, USA
fDate :
12/1/2002 12:00:00 AM
Abstract :
High-energy ion-irradiated 3.3-nm oxynitride film and 2.2-nm SiO2-film MOS capacitors show premature breakdown during subsequent electrical stress. This degradation in breakdown increases with increasing ion linear energy transfer (LET), increasing ion fluence, and decreasing oxide thickness. The reliability degradation due to high-energy ion-induced latent defects is explained by a simple percolation model of conduction through SiO2 layers with irradiation and/or electrical stress-induced defects. Monitoring the gate-leakage current reveals the presence of latent defects in the dielectric films. These results may be significant to future single-event effects and single-event gate rupture tests for MOS devices and ICs with ultrathin gate oxides.
Keywords :
MOS capacitors; dielectric thin films; electric breakdown; ion beam effects; leakage currents; percolation; semiconductor device reliability; 2.2 nm; 3.3 nm; ICs; MOS capacitors; MOS devices; Si-SiO2; Si-SiON; SiO2 layer conduction; SiO2-film MOS capacitors; breakdown degradation; electrical stress; gate-leakage current; heavy-ion irradiation; high-energy ion-induced latent defects; high-energy ion-irradiation; ion fluence; ion linear energy transfer; latent defects; long-term reliability degradation; oxide thickness; oxynitride film MOS capacitors; percolation model; premature breakdown; single-event effects; single-event gate rupture tests; ultrathin dielectric films; Degradation; Dielectric films; Electric breakdown; Electrodes; Energy exchange; Laboratories; MOS devices; Monitoring; Semiconductor films; Testing;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2002.805389
