Title :
Plasma etching optimization of oxide/nitride/oxide interpoly dielectric breakdown time in flash memory devices
Author :
Eng Fong Chor ; Hao Gong ; Lap Chan
fDate :
8/1/2000 12:00:00 AM
Abstract :
The breakdown time of flash memory oxide/nitride/oxide (ONO) layer tbd under positive constant current stressing has been found to be closely related to the cumulative extent of (over)etch of the tungsten silicide, control polysilicon, and ONO layers, i.e., Σ(ΛOE). An empirical first-order relation between tbd and Σ(ΛOE) has been derived to facilitate the plasma etch recipe optimization. This has led to a four-fold increase in the average tbd across a 200-mm wafer to 208 s. More importantly, the spread in tbd has been tightened to ~5%, which is down from ~54%
Keywords :
dielectric thin films; flash memories; optimisation; semiconductor device breakdown; sputter etching; 200 mm; 208 s; ONO layers; control polysilicon; dielectric breakdown time; empirical first-order relation; flash memory devices; oxide/nitride/oxide interpoly dielectric; plasma etch recipe optimization; plasma etching optimization; positive constant current stressing; Dielectric breakdown; Etching; Flash memory; Plasma applications; Plasma chemistry; Plasma devices; Plasma temperature; Silicides; Testing; Tungsten;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
