Quantum dot formation with silicon doping in InGaN/GaN quantum well structures and its implications in radiative mechanisms

Yung Chen Cheng; Cheng Hua Tseng; Chen Hsu; Kung Jen Ma; Shih Wei Feng; En Chiang Lin; Chih Chung Yang; Jen Inn Chyi

doi:10.1117/12.477794

Quantum dot formation with silicon doping in InGaN/GaN quantum well structures and its implications in radiative mechanisms

Yung Chen Cheng, Cheng Hua Tseng, Chen Hsu, Kung Jen Ma, Shih Wei Feng, En Chiang Lin, Chih Chung Yang, Jen Inn Chyi

Research output: Contribution to journal › Conference article › peer-review

Abstract

Optical properties and material microstructures of three InGaN/GaN quantum well (QW) samples with various silicon-doping concentrations in barriers were measured. From the high-resolution transmission electron microscopy images, quantum dots (QDs) of a few nm in size were observed in silicon-doped samples. The regularities of QDs in size, shape and distribution increased with doping concentration up to 5 × 10¹⁸ cm^-3. Such observations implied that the reduction of quantum-confined Stark effect in such a sample was due to the relaxation of strain energy in QDs with silicon doping, besides the carrier screen effect. In other words, the microstructures were crucially changed with silicon doping in barriers. Also, the carrier localization effect was actually enhanced although potential fluctuation indeed became less randomly distributed. The calibrated radiative lifetimes in both silicon-doped samples showed the consistent trend of the formation of 0-D structure upon silicon doping.

Original language	English
Pages (from-to)	518-523
Number of pages	6
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	4999
DOIs	https://doi.org/10.1117/12.477794
State	Published - 2003
Event	Quantum Sensing: Evolution and Revolution from Past to Future - San Jose, CA, United States Duration: 27 Jan 2003 → 30 Jan 2003

Keywords

Carrier localization
Piezoelectric field
Quantum dot
Quantum well
Silicon doping

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10.1117/12.477794

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@article{28b32934b3d145c3b70269c43043fa84,

title = "Quantum dot formation with silicon doping in InGaN/GaN quantum well structures and its implications in radiative mechanisms",

abstract = "Optical properties and material microstructures of three InGaN/GaN quantum well (QW) samples with various silicon-doping concentrations in barriers were measured. From the high-resolution transmission electron microscopy images, quantum dots (QDs) of a few nm in size were observed in silicon-doped samples. The regularities of QDs in size, shape and distribution increased with doping concentration up to 5 × 1018 cm-3. Such observations implied that the reduction of quantum-confined Stark effect in such a sample was due to the relaxation of strain energy in QDs with silicon doping, besides the carrier screen effect. In other words, the microstructures were crucially changed with silicon doping in barriers. Also, the carrier localization effect was actually enhanced although potential fluctuation indeed became less randomly distributed. The calibrated radiative lifetimes in both silicon-doped samples showed the consistent trend of the formation of 0-D structure upon silicon doping.",

keywords = "Carrier localization, Piezoelectric field, Quantum dot, Quantum well, Silicon doping",

author = "Cheng, {Yung Chen} and Tseng, {Cheng Hua} and Chen Hsu and Ma, {Kung Jen} and Feng, {Shih Wei} and Lin, {En Chiang} and Yang, {Chih Chung} and Chyi, {Jen Inn}",

year = "2003",

doi = "10.1117/12.477794",

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volume = "4999",

pages = "518--523",

journal = "Proceedings of SPIE - The International Society for Optical Engineering",

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TY - JOUR

T1 - Quantum dot formation with silicon doping in InGaN/GaN quantum well structures and its implications in radiative mechanisms

AU - Cheng, Yung Chen

AU - Tseng, Cheng Hua

AU - Hsu, Chen

AU - Ma, Kung Jen

AU - Feng, Shih Wei

AU - Lin, En Chiang

AU - Yang, Chih Chung

AU - Chyi, Jen Inn

PY - 2003

Y1 - 2003

N2 - Optical properties and material microstructures of three InGaN/GaN quantum well (QW) samples with various silicon-doping concentrations in barriers were measured. From the high-resolution transmission electron microscopy images, quantum dots (QDs) of a few nm in size were observed in silicon-doped samples. The regularities of QDs in size, shape and distribution increased with doping concentration up to 5 × 1018 cm-3. Such observations implied that the reduction of quantum-confined Stark effect in such a sample was due to the relaxation of strain energy in QDs with silicon doping, besides the carrier screen effect. In other words, the microstructures were crucially changed with silicon doping in barriers. Also, the carrier localization effect was actually enhanced although potential fluctuation indeed became less randomly distributed. The calibrated radiative lifetimes in both silicon-doped samples showed the consistent trend of the formation of 0-D structure upon silicon doping.

AB - Optical properties and material microstructures of three InGaN/GaN quantum well (QW) samples with various silicon-doping concentrations in barriers were measured. From the high-resolution transmission electron microscopy images, quantum dots (QDs) of a few nm in size were observed in silicon-doped samples. The regularities of QDs in size, shape and distribution increased with doping concentration up to 5 × 1018 cm-3. Such observations implied that the reduction of quantum-confined Stark effect in such a sample was due to the relaxation of strain energy in QDs with silicon doping, besides the carrier screen effect. In other words, the microstructures were crucially changed with silicon doping in barriers. Also, the carrier localization effect was actually enhanced although potential fluctuation indeed became less randomly distributed. The calibrated radiative lifetimes in both silicon-doped samples showed the consistent trend of the formation of 0-D structure upon silicon doping.

KW - Carrier localization

KW - Piezoelectric field

KW - Quantum dot

KW - Quantum well

KW - Silicon doping

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U2 - 10.1117/12.477794

DO - 10.1117/12.477794

M3 - 會議論文

AN - SCOPUS:0141678203

SN - 0277-786X

VL - 4999

SP - 518

EP - 523

JO - Proceedings of SPIE - The International Society for Optical Engineering

JF - Proceedings of SPIE - The International Society for Optical Engineering

T2 - Quantum Sensing: Evolution and Revolution from Past to Future

Y2 - 27 January 2003 through 30 January 2003

ER -

Quantum dot formation with silicon doping in InGaN/GaN quantum well structures and its implications in radiative mechanisms

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Keywords

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