Title :
Evidence of real-space hot-electron transfer in high mobility, strained-Si multilayer MOSFETs
Author :
Welser, J. ; Hoyt, J.L. ; Gibbons, J.F.
Author_Institution :
Solid State Electron. Lab., Stanford Univ., CA, USA
Abstract :
New phenomena are reported in N-MOSFETs with high-mobility, strained-Si electron channels. A parasitic bipolar breakdown is observed at anomalously low drain voltages at reduced temperatures (<100 K) in devices with strained-Si channels buried beneath a relaxed-Si/sub 1-x/Ge/sub x/ capping layer. This breakdown is consistent with a mechanism involving real-space hot-electron transfer and hole confinement in the heterostructure, and is shown to be quenched by the addition of a surface strained-Si layer. This additional Si layer also offers the practical advantage of extending device performance enhancements to higher gate voltages at room temperature.<>
Keywords :
high electron mobility transistors; hot electron transistors; insulated gate field effect transistors; 100 K; N-MOSFETs; Si-SiGe; heterostructure; high-mobility strained-Si electron channels; hole confinement; parasitic bipolar breakdown; real-space hot-electron transfer; relaxed-Si/sub 1-x/Ge/sub x/ capping layer; Breakdown voltage; Buffer layers; Electric breakdown; Electron mobility; Impact ionization; Low voltage; MOSFET circuits; Nonhomogeneous media; Substrates; Temperature;
Conference_Titel :
Electron Devices Meeting, 1993. IEDM '93. Technical Digest., International
Conference_Location :
Washington, DC, USA
Print_ISBN :
0-7803-1450-6
DOI :
10.1109/IEDM.1993.347291
