Ferromagnetism in one layer of self-organized InMnAs quantum dots

Im Taek Yoon; Sejoon Lee; Yoon Shon; Seung Woong Lee; Tae Won Kang

doi:10.1007/s10948-010-0840-7

Ferromagnetism in one layer of self-organized InMnAs quantum dots

Im Taek Yoon, Sejoon Lee, Yoon Shon, Seung Woong Lee, Tae Won Kang

Division of System Semiconductor

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

4 Scopus citations

Abstract

One layer of self-assembled InMnAs quantum dots with InGaAs barrier was grown on high-resistivity (100) p-type GaAs substrates by molecular beam epitaxy (MBE). A presence of ferromagnetic structure was confirmed in the InMnAs dilute magnetic quantum dots. The one layer of self-assembled InMnAs quantum dots was found to be semiconducting, and have ferromagnetic ordering with a Curie temperature, T _C =80 K. It is likely that the ferromagnetic exchange coupling of sample with T _C =80 K is hole-mediated resulting in Mn substituting Ge. PL emission spectra of InMnAs samples grown at temperature of 210°C and 285°C show that the interband transition peak centered at 1.31 eV comes from the InMnAs quantum dot.

Original language	English
Pages (from-to)	1393-1396
Number of pages	4
Journal	Journal of Superconductivity and Novel Magnetism
Volume	24
Issue number	5
DOIs	https://doi.org/10.1007/s10948-010-0840-7
State	Published - Jul 2011

Keywords

Ferromagnetism
Photoluminescence
Quantum dots

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10.1007/s10948-010-0840-7

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title = "Ferromagnetism in one layer of self-organized InMnAs quantum dots",

abstract = "One layer of self-assembled InMnAs quantum dots with InGaAs barrier was grown on high-resistivity (100) p-type GaAs substrates by molecular beam epitaxy (MBE). A presence of ferromagnetic structure was confirmed in the InMnAs dilute magnetic quantum dots. The one layer of self-assembled InMnAs quantum dots was found to be semiconducting, and have ferromagnetic ordering with a Curie temperature, T C =80 K. It is likely that the ferromagnetic exchange coupling of sample with T C =80 K is hole-mediated resulting in Mn substituting Ge. PL emission spectra of InMnAs samples grown at temperature of 210°C and 285°C show that the interband transition peak centered at 1.31 eV comes from the InMnAs quantum dot.",

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author = "Yoon, {Im Taek} and Sejoon Lee and Yoon Shon and Lee, {Seung Woong} and Kang, {Tae Won}",

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TY - JOUR

T1 - Ferromagnetism in one layer of self-organized InMnAs quantum dots

AU - Yoon, Im Taek

AU - Lee, Sejoon

AU - Shon, Yoon

AU - Lee, Seung Woong

AU - Kang, Tae Won

PY - 2011/7

Y1 - 2011/7

N2 - One layer of self-assembled InMnAs quantum dots with InGaAs barrier was grown on high-resistivity (100) p-type GaAs substrates by molecular beam epitaxy (MBE). A presence of ferromagnetic structure was confirmed in the InMnAs dilute magnetic quantum dots. The one layer of self-assembled InMnAs quantum dots was found to be semiconducting, and have ferromagnetic ordering with a Curie temperature, T C =80 K. It is likely that the ferromagnetic exchange coupling of sample with T C =80 K is hole-mediated resulting in Mn substituting Ge. PL emission spectra of InMnAs samples grown at temperature of 210°C and 285°C show that the interband transition peak centered at 1.31 eV comes from the InMnAs quantum dot.

AB - One layer of self-assembled InMnAs quantum dots with InGaAs barrier was grown on high-resistivity (100) p-type GaAs substrates by molecular beam epitaxy (MBE). A presence of ferromagnetic structure was confirmed in the InMnAs dilute magnetic quantum dots. The one layer of self-assembled InMnAs quantum dots was found to be semiconducting, and have ferromagnetic ordering with a Curie temperature, T C =80 K. It is likely that the ferromagnetic exchange coupling of sample with T C =80 K is hole-mediated resulting in Mn substituting Ge. PL emission spectra of InMnAs samples grown at temperature of 210°C and 285°C show that the interband transition peak centered at 1.31 eV comes from the InMnAs quantum dot.

KW - Ferromagnetism

KW - Photoluminescence

KW - Quantum dots

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Ferromagnetism in one layer of self-organized InMnAs quantum dots

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Keywords

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