Title :
Experimental verification of buried-oxide with over-8 MV/cm breakdown fields in low-dose SIMOX wafers
Author :
Kawamura, K. ; Matsumura, A. ; Yano, T. ; Hamaguchi, L. ; Nagatake, Y. ; Takayama, S. ; Tachimori, M. ; Kurumada, K.
Author_Institution :
Labs. of Adv. Technol. Res., Nippon Steel Corp., Yamaguchi, Japan
Abstract :
Low-dose SIMOX wafers have attractive features as the material for advanced commercial CMOS LSIs, such as lower cost, and lower threading dislocation density (~102 cm-2) than high-dose SIMOX. However, the low-dose SIMOX wafers prepared by the Internal-Thermal-OXidation (ITOX) process, still exhibited lower breakdown fields (EBDs) for the buried-oxide (~5.5 MV/cm), when compared to the intrinsic EBD of the thermal-oxide (>8 MV/cm) at Si surface in most cases. It has been pointed out that the EBD degradation of Buried-OXide (BOX) is caused by the presence of Si islands in the BOX. We report here that BOX EBDs for the low-dose SIMOX is upgraded from the level of the previous case to that of thermal oxide (>8 MV/cm) by the reduction of Si islands and becomes more practical to larger unit-device-size area (7.85×10-3cm2)
Keywords :
CMOS integrated circuits; SIMOX; dislocation density; electric breakdown; integrated circuit measurement; large scale integration; oxidation; BOX; CMOS; ITOX; LSI; Si; breakdown fields; buried-oxide verification; internal-thermal-oxidation; low-dose SIMOX wafers; thermal oxide; threading dislocation density; unit-device-size area; CMOS technology; Capacitors; Electric breakdown; Electric variables measurement; Electrodes; Histograms; Laboratories; Scanning electron microscopy; Steel; Stress;
Conference_Titel :
SOI Conference, 1997. Proceedings., 1997 IEEE International
Conference_Location :
Fish Camp, CA
Print_ISBN :
0-7803-3938-X
DOI :
10.1109/SOI.1997.634963
