Soo-Young Moon scite author profile

Soo-Young Moon

5Publications

141Citation Statements Received

98Citation Statements Given

How they've been cited

158

136

How they cite others

100

Affiliations

Korea Institute of Civil Engineering and Building Technology, Toyohashi University of Technology, Asan Medical Center

Publications

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Properties of Ga-interstitial defects inAlxGa1−xNyP1−
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2005
Phys. Rev. B
38
5
40
0
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A detailed account of the experimental results from optically detected magnetic resonance ͑ODMR͒ studies of grown-in defects in ͑Al͒GaNP alloys, prepared by molecular beam epitaxy, is presented. The experimental procedure and an in-depth analysis by a spin Hamiltonian lead to the identification of two Ga i defects ͑Ga i -A and Ga i -B͒. New information on the electronic properties of these defects and the recombination processes leading to the observation of the ODMR signals will be provided. These defects are deep-level defects. In conditions when the defect is directly involved in radiative recombination of the near-infrared photoluminescence band, the energy level of the Ga i -B defect was estimated to be deeper than ϳ1.2 eV from either the conduction or valence band edge. In most cases, however, these defects act as nonradiative recombination centers, reducing the efficiency of light emission from the alloys. They can thus undermine the performance of potential photonic devices. High thermal stability is observed for these defects.

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Elemental devices, circuits and processes for a monolithic Si/III–V–N alloy OEIC

et al. 2005

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Monolithic Implementation of Elemental Devices for Optoelectronic Integrated Circuit in Lattice-Matched Si/III–V–N Alloy Layers

Furukawa

Yonezu

Morisaki

et al. 2006

jjap

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Light emitting diodes (LEDs) and Si-based metal oxide semiconductor field effect transistors (MOSFETs) were monolithically merged in a single chip which consisted of a Si layer and an InGaPN/GaPN double heterostructure layer lattice-matched to Si grown on a Si substrate by dislocation-free growth process for the first time. The developed fabrication process was conformed to a conventional planar MOSFET process. All LEDs and MOSFETs operated normally. Light emission from the LED was modulated by switching the MOSFET. The growth and fabrication technologies could be effective for realizing monolithic optoelectronic integrated circuits for massively parallel processing and optical interconnections.

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Identification ofGa-interstitial defects inGaNyP1
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2004
Phys. Rev. B
18
0
14
0
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Two Ga-interstitial ͑Ga i ͒ defects are identified by optically detected magnetic resonance as common grown-in defects in molecular beam epitaxial GaN y P 1−y and Al x Ga 1−x N y P 1−y . Characteristic hyperfine structure arising from spin interaction between an unpaired electron and a Ga nucleus is clearly resolved. The observed strong and nearly isotropic hyperfine interaction reveals an electron wave function of A 1 symmetry that is highly localized at the Ga i and thus a deep-level defect. Our analysis based on first-principles calculations suggests that these defects are complexes containing one Ga i 2+ .

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Growth of Si/III–V-N/Si structure with two-chamber molecular beam epitaxy system for optoelectronic integrated circuits

Furukawa¹,

Yonezu²,

Wakahara³

et al. 2007

Journal of Crystal Growth

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Soo-Young Moon

Properties of Ga-interstitial defects inAlxGa1−xNyP1−
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2005
Phys. Rev. B
38
5
40
0
View full text Add to dashboard Cite

Elemental devices, circuits and processes for a monolithic Si/III–V–N alloy OEIC

Monolithic Implementation of Elemental Devices for Optoelectronic Integrated Circuit in Lattice-Matched Si/III–V–N Alloy Layers

Identification ofGa-interstitial defects inGaNyP1
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2004
Phys. Rev. B
18
0
14
0
View full text Add to dashboard Cite

Growth of Si/III–V-N/Si structure with two-chamber molecular beam epitaxy system for optoelectronic integrated circuits

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Soo-Young Moon

Properties of Ga-interstitial defects inAlxGa1−xNyP1−Thinh1, Vorona2, Buyanova3 et al. 2005Phys. Rev. B385400View full textAdd to dashboardCite

Elemental devices, circuits and processes for a monolithic Si/III–V–N alloy OEIC

Monolithic Implementation of Elemental Devices for Optoelectronic Integrated Circuit in Lattice-Matched Si/III–V–N Alloy Layers

Identification ofGa-interstitial defects inGaNyP1Thinh1, Vorona2, Buyanova3 et al. 2004Phys. Rev. B180140View full textAdd to dashboardCite

Growth of Si/III–V-N/Si structure with two-chamber molecular beam epitaxy system for optoelectronic integrated circuits

Contact Info

Product

Resources

About

Properties of Ga-interstitial defects inAlxGa1−xNyP1−
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2005
Phys. Rev. B
38
5
40
0
View full text Add to dashboard Cite

Identification ofGa-interstitial defects inGaNyP1
Thinh
¹
,
Vorona
²
,
Buyanova
³

et al. 2004
Phys. Rev. B
18
0
14
0
View full text Add to dashboard Cite