Title :
High-speed source-heterojunction-MOS-transistor (SHOT) utilizing high-velocity electron injection
Author :
Mizuno, Tomohisa ; Sugiyama, Naoharu ; Tezuka, Tsutomu ; Moriyama, Yoshihiko ; Nakaharai, Shu ; Maeda, Tatsuro ; Takagi, Shin-ichi
Author_Institution :
Kanagawa Univ., Hiratsuka, Japan
Abstract :
We have developed the source-heterojunction-MOS-transistor (SHOT), a novel high-speed MOSFET with relaxed-SiGe/strained-Si heterojunction source structures for quasi-ballistic or full-ballistic transistors. Using the band-offset energy at the source SiGe/strained-Si heterojunction, high velocity electrons can be injected into the strained-Si channel from the SiGe source region. For the first time, we have experimentally demonstrated that the transconductance is enhanced in SHOT for high applied drain voltage, compared to that of strained- and conventional silicon-on-insulator MOSFETs. We have also shown that the transconductance enhancement in SHOT depends on both the gate drive and the drain bias.
Keywords :
Ge-Si alloys; MOSFET; ballistic transport; charge injection; elemental semiconductors; high-speed techniques; semiconductor heterojunctions; silicon; SiGe-Si; full-ballistic transistors; high-speed MOSFET; high-speed source-heterojunction-MOS-transistors; high-velocity electron injection; quasi-ballistic transistors; relaxed heterojunction source structures; strained heterojunction source structures; transconductance enhancement; Electrons; Fabrication; Germanium silicon alloys; Heterojunction bipolar transistors; Kinetic energy; MOSFET circuits; Scattering; Silicon germanium; Transconductance; Voltage; Ballistic transport; band-offset; heterojunction; high-velocity electron injection; source engineering;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.859591
