Computer simulation of gallium arsenide field-effect transistors using Monte-Carlo methods

Author

Warriner, Robert A.

Author_Institution

University of Reading, Department of Computer Science, Reading, UK

Volume

1

Issue

4

fYear

1977

fDate

7/1/1977 12:00:00 AM

Firstpage

105

Lastpage

110

Abstract

A gallium arsenide planar field-effect transistor (f.e.t.) structure is simulated using a particle-mesh computer model. The model incorporates two dimensions in configuration space and three dimensions in k-space; with a full description of the material scattering cross-section which is implemented using Monte-Carlo techniques. The f.e.t. static characteristic has been calculated together with the lumped equivalent-circuit paramters. A comparison is made between devices with and without substrate. Detailed information about electrostatic potential and valley population profiles is presented for the first time. Cole-Cole plots of complex output impedance are used in determining device frequency response.

Keywords

Monte Carlo methods; Schottky gate field effect transistors; digital simulation; electronic engineering computing; equivalent circuits; semiconductor device models; Cole Cole plots; GaAs FET; MESFET; Monte Carlo methods; complex output impedance; electrostatic potential; field effect transistors; frequency response; lumped equivalent circuit parameters; particle mesh computer model; static characteristic; valley population profiles;

fLanguage

English

Journal_Title

Solid-State and Electron Devices, IEE Journal on

Publisher

iet

ISSN

0308-6968

Type

jour

DOI

10.1049/ij-ssed.1977.0013

Filename

4807526