Title :
Self-Heating-Induced Spatial Spread of Interface State Generation by Hot-Electron Effect: Role of the High-Energy Tail Electron
Author :
Ang, D.S. ; Phua, T.W.H. ; Ling, C.H.
Author_Institution :
Sch. of Electr. & Electron. Eng., Nanyang Technol. Univ., Singapore
Abstract :
The spatial spread of interface states generated by hot-electron effect in the nMOSFET is shown to be significantly increased by self-heating. Substantial generation of interface states in the channel region of the wide-channel strained-Si/SiGe nMOSFET, which suffers from significant self-heating, is observed at a very short stress time. The initial spread of the interface damage is significantly reduced in the narrow-channel strained-Si device, which exhibits a much lesser degree of self-heating. Evidence suggests that the increased spread in the spatial distribution of the interface damage is due to a small fraction of excess ldquosuperhotrdquo electrons, which have gained additional energy from phonon absorption.
Keywords :
Ge-Si alloys; MOSFET; elemental semiconductors; hot carriers; interface states; silicon; Si-SiGe; high-energy tail electron; hot-electron effect; interface state generation; nMOSFET; narrow-channel device; phonon absorption; self-heating-induced spatial spread; Electrical resistance measurement; Electrons; Germanium silicon alloys; Interface states; MOSFET circuits; Silicon germanium; Stress; Tail; Temperature; Voltage; Channel temperature; high-energy tail electrons; hot-carrier effect; strained-Si/SiGe heterostructure;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2008.2000966
