مرکز منطقه ای اطلاع رساني علوم و فناوري - Quantum Transport Simulation of Silicon-Nanowire Transistors Based on Direct Solution Approach of the Wigner Transport Equation

DocumentCode :

1062845

Title :

Quantum Transport Simulation of Silicon-Nanowire Transistors Based on Direct Solution Approach of the Wigner Transport Equation

Author :

Yamada, Yoshihiro ; Tsuchiya, Hideaki ; Ogawa, Matsuto

Author_Institution :

Dept. of Electr. & Electron. Eng., Kobe Univ., Kobe

Volume :

Issue :

fYear :

2009

fDate :

7/1/2009 12:00:00 AM

Firstpage :

1396

Lastpage :

1401

Abstract :

In this paper, we present a self-consistent and 3D quantum simulator for Si-nanowire transistors based on the Wigner function model and multidimensional Schrodinger-Poisson algorithm. To achieve a sufficient numerical accuracy for calculating subthreshold current, we introduced a third-order differencing scheme for discretizing the drift term in the Wigner transport equation. By comparing with semiclassical Boltzmann and nonequilibrium Green´s function approaches, the validity of the present simulator is confirmed. We also demonstrate that the source-drain tunneling is a critical physical phenomenon related to a scaling limit of nanowire devices, and the semiclassical simulation measurably underestimates a minimum gate length.

Keywords :

Boltzmann equation; Green´s function methods; Poisson equation; Schrodinger equation; elemental semiconductors; nanoelectronics; nanowires; silicon; transistors; tunnelling; 3D quantum simulator; Si; Wigner transport equation; multidimensional Schrodinger-Poisson algorithm; nonequilibrium Green´s function approach; semiclassical Boltzmann approach; silicon-nanowire transistor; source-drain tunneling; Computational modeling; Difference equations; MOSFETs; Multidimensional systems; Nanoscale devices; Poisson equations; Potential well; Quantum computing; Schrodinger equation; Tunneling; Boltzmann transport equation; Wigner transport equation; gate-all-around (GAA) configuration; nonequilibrium Green´s function (NEGF) method; quantum confinement; silicon-nanowire transistors (SNWTs); source–drain (S-D) tunneling; subthreshold swing (SS);

fLanguage :

English

Journal_Title :

Electron Devices, IEEE Transactions on

Publisher :

ieee

ISSN :

0018-9383

Type :

jour

DOI :

10.1109/TED.2009.2021355

Filename :

5067374

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=1062845