Title :
Synthesis of a new manufacturable high-quality graded gate oxide for sub-0.2 μm technologies
Author :
Roy, Pradip Kumar ; Chen, Yuanning ; Chetlur, Sundar
Author_Institution :
Lucent Technol. Bell Labs., Orlando, FL, USA
fDate :
9/1/2001 12:00:00 AM
Abstract :
Graded gate oxide process involves a two-step synthesis of growing an oxide at a temperature above the viscoelastic temperature (TVE ) onto a pregrown low temperature thermally grown SiO2 layer to form a composite graded SiO2 structure. The cooling rate is carefully modulated near TVE~925°C to enhance growth induced stress relaxation. The pregrown SiO2 layer provides grading and is a sink for stress accommodation for the final high temperature SiO2 forming the interface. Both grading and modulated cooling generate a strain-free and planar Si/SiO2 interface. Such an interface delivers significant enhancement in all aspects of device reliability and performance. These oxides are of very high-quality, robust, and manufacturable with a process capability index, Cpk>1.5. Graded gate oxide is already in the primary path of our 0.16 μm and 0.12 μm technologies
Keywords :
oxidation; silicon compounds; stress relaxation; viscoelasticity; 0.12 micron; 0.16 micron; 925 C; Si-SiO2; Si/SiO2 planar interfere; SiO2 thermal layer; bias temperature; composite structure; cooling rate; graded gate oxide; manufacturability; process capability index; reliability; stress relaxation; two-step synthesis; viscoelastic temperature; CMOS technology; Cooling; Dielectrics; Elasticity; MOSFETs; Manufacturing; Process design; Temperature; Thermal stresses; Viscosity;
Journal_Title :
Electron Devices, IEEE Transactions on
