Intersubband Scattering in Double-Gate MOSFETs

Author

Takashina, Kei ; Ono, Yukinori ; Fujiwara, Akira ; Takahashi, Yasuo ; Hirayama, Yoshiro

Author_Institution

NTT Basic Res. Labs.

Volume

5

Issue

5

fYear

2006

Firstpage

430

Lastpage

435

Abstract

Quantum mechanical features of even the most basic of semiconductor components can be expected to become of paramount importance for future nanoelectronics and quantum information technology. Here, we show that the conductivity of even a two-dimensionally extended double-gate silicon-on-insulator metal-oxide-silicon field-effect transistor can develop a distinct peak structure in its top-gate voltage dependence at low temperatures, due to the discreteness of subband edges resulting from quantum mechanical confinement in the vertical gating direction. Our findings are confirmed using low-temperature magnetic field measurements

Keywords

MOSFET; electrical conductivity; silicon-on-insulator; 2D extended double-gate silicon-on-insulator metal-oxide-silicon field-effect transistor; Si-SiO₂; double-gate MOSFET; electrical conductivity; intersubband scattering; low-temperature magnetic field measurements; nanoelectronics; quantum information technology; quantum mechanical confinement; Conductivity; Double-gate FETs; Information technology; Low voltage; MOSFETs; Nanoelectronics; Particle scattering; Quantum mechanics; Silicon on insulator technology; Temperature dependence; Conductivity; quantization; quantum wells; silicon-on-insulator (SOI) technology;

fLanguage

English

Journal_Title

Nanotechnology, IEEE Transactions on

Publisher

ieee

ISSN

1536-125X

Type

jour

DOI

10.1109/TNANO.2006.880425

Filename

1695937