Fabrication of 10-Nanometer-Scale Gaas Dot Structures by in sItu Selective Gas Etching with Self-Assembled Inas Dots as a Mask

Go Yus A; Hiroshi Noge; Yutaka Kadoya; Takao Someya; Tadatomo Suga; Pierre Petroff; Hiroyuki Sakaki

doi:10.1143/JJAP.34.L1198

Fabrication of 10-Nanometer-Scale Gaas Dot Structures by in sItu Selective Gas Etching with Self-Assembled Inas Dots as a Mask

Go Yus A, Hiroshi Noge, Yutaka Kadoya, Takao Someya, Tadatomo Suga, Pierre Petroff, Hiroyuki Sakaki

SCI - Physics

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

6 Citations (Scopus)

Abstract

We report on a novel method of fabricating 10-nm-scale GaAs dot structures using molecular beam epitaxy and in situ gas etching. Self-assembled nanometer-scale InAs dots are formed first and are used as masks for the subsequent etching of GaAs by Cl₂gas. In this approach, we also make use of HC1 gas etching to remove selectively the InAs wetting layer as well as the InAs dots to yield clean and strain-free GaAs dot structures. The height and base diameter of resultant GaAs dots are studied by atomic force microscopy and found to be 10±2 nm and 30±5 nm, respectively.

Original language	English
Pages (from-to)	L1198-L1201
Journal	Japanese Journal of Applied Physics
Volume	34
Issue number	9
DOIs	https://doi.org/10.1143/JJAP.34.L1198
Publication status	Published - 1995 Sept

Keywords

GaAs dots
Gas etching
In situ processing
InAs dots
MBE

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10.1143/JJAP.34.L1198

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title = "Fabrication of 10-Nanometer-Scale Gaas Dot Structures by in sItu Selective Gas Etching with Self-Assembled Inas Dots as a Mask",

abstract = "We report on a novel method of fabricating 10-nm-scale GaAs dot structures using molecular beam epitaxy and in situ gas etching. Self-assembled nanometer-scale InAs dots are formed first and are used as masks for the subsequent etching of GaAs by Cl2gas. In this approach, we also make use of HC1 gas etching to remove selectively the InAs wetting layer as well as the InAs dots to yield clean and strain-free GaAs dot structures. The height and base diameter of resultant GaAs dots are studied by atomic force microscopy and found to be 10±2 nm and 30±5 nm, respectively.",

keywords = "GaAs dots, Gas etching, In situ processing, InAs dots, MBE",

author = "{Yus A}, Go and Hiroshi Noge and Yutaka Kadoya and Takao Someya and Tadatomo Suga and Pierre Petroff and Hiroyuki Sakaki",

year = "1995",

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T1 - Fabrication of 10-Nanometer-Scale Gaas Dot Structures by in sItu Selective Gas Etching with Self-Assembled Inas Dots as a Mask

AU - Yus A, Go

AU - Noge, Hiroshi

AU - Kadoya, Yutaka

AU - Someya, Takao

AU - Suga, Tadatomo

AU - Petroff, Pierre

AU - Sakaki, Hiroyuki

PY - 1995/9

Y1 - 1995/9

N2 - We report on a novel method of fabricating 10-nm-scale GaAs dot structures using molecular beam epitaxy and in situ gas etching. Self-assembled nanometer-scale InAs dots are formed first and are used as masks for the subsequent etching of GaAs by Cl2gas. In this approach, we also make use of HC1 gas etching to remove selectively the InAs wetting layer as well as the InAs dots to yield clean and strain-free GaAs dot structures. The height and base diameter of resultant GaAs dots are studied by atomic force microscopy and found to be 10±2 nm and 30±5 nm, respectively.

AB - We report on a novel method of fabricating 10-nm-scale GaAs dot structures using molecular beam epitaxy and in situ gas etching. Self-assembled nanometer-scale InAs dots are formed first and are used as masks for the subsequent etching of GaAs by Cl2gas. In this approach, we also make use of HC1 gas etching to remove selectively the InAs wetting layer as well as the InAs dots to yield clean and strain-free GaAs dot structures. The height and base diameter of resultant GaAs dots are studied by atomic force microscopy and found to be 10±2 nm and 30±5 nm, respectively.

KW - GaAs dots

KW - Gas etching

KW - In situ processing

KW - InAs dots

KW - MBE

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Fabrication of 10-Nanometer-Scale Gaas Dot Structures by in sItu Selective Gas Etching with Self-Assembled Inas Dots as a Mask

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Keywords

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