INTEGRATION OF PLASMA-ASSISTED AND RAPID THERMAL-PROCESSING FOR LOW-THERMAL BUDGET PREPARATION OF ULTRA-THIN DIELECTRICS FOR STACKED-GATE DEVICE STRUCTURES

This paper discusses a new approach to the formation of ultra-thin gat e dielectrics for Si-ULSI applications in which separately controlled plasma-assisted and/or rapid thermal processing steps are combined to fix the chemical bonding and minimize the defect structure at the Si-S iO2 interface, and within the dielectric layers. One example of this a pproach combines (i) low-temperature (300 degrees C) plasma-assisted p rocessing to control the initial bonding chemistries at (a) the Si-SiO 2 interface, and (b) in homogeneous oxide, or composite dielectrics wi th nitride or oxynitride layers, with (ii) higher temperature (900 deg rees C), but low-thermal budget, rapid thermal annealing to promote ph ysical and/or chemical relaxations that minimize both interfacial and bulk dielectric defects, thereby improving device performance.