Directional effects on bound quantum states for trench oxide quantum wires on (1 0 0)-silicon

A. Trellakis; U. Ravaioli

doi:10.1016/j.sse.2003.08.006

Directional effects on bound quantum states for trench oxide quantum wires on (1 0 0)-silicon

Research output: Contribution to journal › Article › peer-review

Abstract

We examine the influence of channel axis orientation on bound electron states for trench oxide quantum wires built on (100)-silicon surfaces. We describe these structures by solving the coupled system of Schrödinger's and Poisson's equation selfconsistently using a realistic mass tensor for all six conductions band valleys. We find that for the structure examined aligning the channel axis with a (100)-direction has only a small influence on the spectrum of bound electron states and practically none on total channel occupation.

Original language	English (US)
Pages (from-to)	367-371
Number of pages	5
Journal	Solid-State Electronics
Volume	48
Issue number	3
DOIs	https://doi.org/10.1016/j.sse.2003.08.006
State	Published - Mar 2004

Keywords

Directional effects
MOSFET
Quantum wire
Silicon
Surface

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Materials Chemistry
Electrical and Electronic Engineering

Online availability

10.1016/j.sse.2003.08.006

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title = "Directional effects on bound quantum states for trench oxide quantum wires on (1 0 0)-silicon",

abstract = "We examine the influence of channel axis orientation on bound electron states for trench oxide quantum wires built on (100)-silicon surfaces. We describe these structures by solving the coupled system of Schr{\"o}dinger's and Poisson's equation selfconsistently using a realistic mass tensor for all six conductions band valleys. We find that for the structure examined aligning the channel axis with a (100)-direction has only a small influence on the spectrum of bound electron states and practically none on total channel occupation.",

keywords = "Directional effects, MOSFET, Quantum wire, Silicon, Surface",

author = "A. Trellakis and U. Ravaioli",

note = "Funding Information: This work was supported by the Army DURINT contract SIT 527826-08, NATO Collaborative Grant CRG-950753, and by a graduate fellowship of the Computational Science and Engineering (CSE) program at the University of Illinois. ",

year = "2004",

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doi = "10.1016/j.sse.2003.08.006",

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T1 - Directional effects on bound quantum states for trench oxide quantum wires on (1 0 0)-silicon

AU - Trellakis, A.

AU - Ravaioli, U.

N1 - Funding Information: This work was supported by the Army DURINT contract SIT 527826-08, NATO Collaborative Grant CRG-950753, and by a graduate fellowship of the Computational Science and Engineering (CSE) program at the University of Illinois.

PY - 2004/3

Y1 - 2004/3

N2 - We examine the influence of channel axis orientation on bound electron states for trench oxide quantum wires built on (100)-silicon surfaces. We describe these structures by solving the coupled system of Schrödinger's and Poisson's equation selfconsistently using a realistic mass tensor for all six conductions band valleys. We find that for the structure examined aligning the channel axis with a (100)-direction has only a small influence on the spectrum of bound electron states and practically none on total channel occupation.

AB - We examine the influence of channel axis orientation on bound electron states for trench oxide quantum wires built on (100)-silicon surfaces. We describe these structures by solving the coupled system of Schrödinger's and Poisson's equation selfconsistently using a realistic mass tensor for all six conductions band valleys. We find that for the structure examined aligning the channel axis with a (100)-direction has only a small influence on the spectrum of bound electron states and practically none on total channel occupation.

KW - Directional effects

KW - MOSFET

KW - Quantum wire

KW - Silicon

KW - Surface

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Directional effects on bound quantum states for trench oxide quantum wires on (1 0 0)-silicon

Abstract

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