Title :
Investigation of the performance limits of III-V double-gate n-MOSFETs
Author :
Pethe, Abhijit ; Krishnamohan, Tejas ; Kim, Donghyun ; Oh, Saeroonter ; Wong, H. S Philip ; Nishi, Yoshio ; Saraswat, Krishna C.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA
Abstract :
The performance limits of ultra-thin body double-gated (DG) III-V channel MOSFETs are presented in this paper. An analytical ballistic model including all the valleys (Gamma-, X- and L-), was used to simulate the source to drain current. The band-to-band tunneling (BTBT) limited off currents, including both the direct and the indirect components, were simulated using TAURUStrade. Our results show that at significantly high gate fields, the current in the III-V materials is largely carried in the heavier L-valleys than the lighter Gamma-valleys, due to the low density of states (DOS) in the Gamma, similar to current conduction in Ge. Moreover, these high mobility materials like InAs, InSb and Ge suffer from excessive BTBT which seriously limits device performance. Large bandgap III-V materials like GaAs exhibit best performance due to an ideal combination of low conductivity effective electron mass and a large bandgap
Keywords :
III-V semiconductors; MOSFET; energy gap; gallium arsenide; germanium; indium compounds; many-valley semiconductors; semiconductor device models; tunnelling; wide band gap semiconductors; BTBT; GaAs; Ge; III-V double-gate MOSFET; InAs; InSb; ballistic model; band-to-band tunneling; current conduction; density of states; high mobility materials; large bandgap III-V materials; n-MOSFET; performance limits; Analytical models; Conducting materials; Dielectric materials; Effective mass; Electrons; Gallium arsenide; III-V semiconductor materials; MOSFET circuits; Photonic band gap; Tunneling;
Conference_Titel :
Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-9268-X
DOI :
10.1109/IEDM.2005.1609422
