Title :
A partially insulated field-effect transistor (PiFET) as a candidate for scaled transistors
Author :
Yeo, Kyoung Hwan ; Oh, Chang Woo ; Kim, Sung Min ; Kim, Min Sang ; Lee, Chang Sub ; Lee, Sung Young ; Han, Sang Yeon ; Yoon, Eun Jung ; Cho, Hye Jin ; Lee, Doo Youl ; Yoon, Byung Moon ; Rhee, Hwa Sung ; Lee, Byung Chan ; Choe, Jeong Dong ; Chung, Ilsub ;
Author_Institution :
R&D Center, Samsung Electron. Co., Kyungki, South Korea
fDate :
6/1/2004 12:00:00 AM
Abstract :
Highly manufacturable partially insulated field-effect transistors (PiFETs) were fabricated by using Si-SiGe epitaxial growth and selective SiGe etch process. Owing to these technologies, pseudo-silicon-on-insulator (SOI) structures, partially insulating oxide (PiOX) under source/drain (PUSD) and PiOX under channel (PUC), could be easily realized with excellent structural and process advantages. We are demonstrating their preliminary characteristics and properties. Especially, in the PUSD PiFET, junction capacitance, leakage current, and DIBL in bulk devices could be reduced and the floating body problem in SOI devices was also cleared without any area penalty. Thus, this PiFET structure can be a promising candidate for the future DRAM cell transistor.
Keywords :
epitaxial growth; etching; field effect transistors; silicon compounds; silicon-on-insulator; DIBL; PiOX under channel; PiOX under source/drain; SOI devices; Si-SiGe; bulk devices; epitaxial growth; floating body problem; junction capacitance; leakage current; partially insulated field-effect transistor; partially insulating oxide; pseudosilicon-on-insulator structures; scaled transistors; selective etch process; Capacitance; Epitaxial growth; Etching; FETs; Germanium silicon alloys; Insulation; Leakage current; Manufacturing processes; Random access memory; Silicon germanium; Epitaxial growth; PUC; PUSD; PiFETs; PiOX; PiOX under channel; PiOX under source/drain; SiGe; partially insulated field-effect transistors; partially insulating oxide;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.830064
