Title :
Physical and electrical characterization and optimization of mesa isolation for 0.35/0.25 μm SOI
Author :
Joyner, Keith ; Schiebel, Rich ; Jacobs, Jarvis ; Mercer, Doug ; Houston, Ted
Author_Institution :
Texas Instrum. Inc., Dallas, TX, USA
fDate :
30 Sep-3 Oct 1996
Abstract :
Due to the compressive thinning of the gate oxide and the two dimensional field effects at the top corner of the transistor, there are two problems that SOI shares with bulk: lowering of the threshold voltage and GOI degradation. The Vt lowering can produce excessive off current and GOI degradation impairs reliability. The focus of this paper is on Vt degradation. One approach to solving this problem is to increase the radius of curvature of the top corner. By properly targeting the sidewall/corner oxide thickness and increasing the HCl content in the oxidizing species, a substantially larger radius of curvature for the mesa/trench corner can be obtained. Additional improvement is obtained with the use of a sidewall implant to further increase the Vt of the corner transistor. Although RTO yields the largest radius of curvature, its process cost is not favorable
Keywords :
MOSFET; ion implantation; isolation technology; oxidation; silicon-on-insulator; 0.25 mum; 0.35 mum; 900 to 1100 C; GOI degradation; HCl; HCl content; NMOS transistor; O2-HCl; RTO; SOI; Si; electrical characterization; gate oxide thinning; mesa isolation; mesa/trench corner; off current; optimization; oxidizing species; physical characterization; radius of curvature; sidewall implant; sidewall/corner oxide thickness; threshold voltage lowering; two dimensional field effects; Degradation; Etching; FETs; Implants; Instruments; Jacobian matrices; Oxidation; Plasma applications; Surface topography; Threshold voltage;
Conference_Titel :
SOI Conference, 1996. Proceedings., 1996 IEEE International
Conference_Location :
Sanibel Island, FL
Print_ISBN :
0-7803-3315-2
DOI :
10.1109/SOI.1996.552515
