Quantum Drift-Diffusion and Quantum Energy Balance simulation of nanowire junctionless transistors

Author

Badami, O. ; Kumar, Narendra ; Saha, D. ; Ganguly, Shaumik

Author_Institution

Dept. of Electr. Eng., Indian Inst. of Technol. Bombay, Mumbai, India

fYear

2012

fDate

10-11 June 2012

Firstpage

1

Lastpage

2

Abstract

Multiple gate MOSFETs (MuGFET) have gained significant attention as the scaling of the conventional MOSFET comes to an end. Of the possible architectures, the gate-all-around nanowire (NW) transistor offers the best gate control over the channel. In order to model GAA nanowire devices for channel lengths less than 10nm, while preserving a connection to the drift-diffusion framework familiar to device engineers, we have developed a quantum-corrected transport simulator that includes Quantum Drift-Diffusion (QDD) and Quantum Energy Balance (QEB). This formalism is applied to the example of the NW junctionless transistor (JLT), an interesting modification to the NW-MOSFET obtained by replacing the n+-p-n+ structure by a bar of n+ region, that promises smaller variability.

Keywords

MOSFET; diffusion; nanowires; GAA nanowire devices; conventional MOSFET; device engineering; drift-diffusion framework; gate-all-around nanowire transistor; multiple gate MOSFET; nanowire junctionless transistors; quantum drift-diffusion; quantum energy balance; quantum energy balance simulation; quantum-corrected transport simulator; Equations; Logic gates; MOSFETs; Mathematical model; Semiconductor device modeling; Tunneling;

fLanguage

English

Publisher

ieee

Conference_Titel

Silicon Nanoelectronics Workshop (SNW), 2012 IEEE

Conference_Location

Honolulu, HI

ISSN

2161-4636

Print_ISBN

978-1-4673-0996-7

Electronic_ISBN

2161-4636

Type

conf

DOI

10.1109/SNW.2012.6243303

Filename

6243303