Optical fine structures of highly quantized InGaAs/GaAs self-assembled quantum dots

H. Y. Ramirez; C. H. Lin; C. C. Chao; Y. Hsu; W. T. You; S. Y. Huang; Y. T. Chen; H. C. Tseng; Wen-Hao Chang; Sheng-Di Lin; Shun-Jen Cheng

doi:10.1103/PhysRevB.81.245324

Optical fine structures of highly quantized InGaAs/GaAs self-assembled quantum dots

H. Y. Ramirez, C. H. Lin, C. C. Chao, Y. Hsu, W. T. You, S. Y. Huang, Y. T. Chen, H. C. Tseng, Wen-Hao Chang, Sheng-Di Lin, Shun-Jen Cheng

電子物理學系

研究成果: Article › 同行評審

23 引文斯高帕斯（Scopus）

摘要

A theoretical model for the electron-hole exchange interaction in three-dimensionally (3D) confining semiconductor nanostructures is presented to explain the observed decreasing tendency of the fine-structure splittings (FSSs) of small InGaAs/GaAs self-assembled quantum dots (QDs) with increasing the emission energies. The experimentally revealed FSS reduction is shown to be highly associated with the significant 3D spreading of electronic orbitals and reduced overlap of electron and hole wave functions in small and/or Ga-diffused QDs. The combination of quantum size and Ga-diffusion effects substantially reduces the averaged e-h exchange interaction and leads to the reduced FSSs in the regime of high emission energy.

原文	English
文章編號	245324
頁（從 - 到）	1-7
頁數	7
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	81
發行號	24
DOIs	https://doi.org/10.1103/PhysRevB.81.245324
出版狀態	Published - 15 6月 2010

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abstract = "A theoretical model for the electron-hole exchange interaction in three-dimensionally (3D) confining semiconductor nanostructures is presented to explain the observed decreasing tendency of the fine-structure splittings (FSSs) of small InGaAs/GaAs self-assembled quantum dots (QDs) with increasing the emission energies. The experimentally revealed FSS reduction is shown to be highly associated with the significant 3D spreading of electronic orbitals and reduced overlap of electron and hole wave functions in small and/or Ga-diffused QDs. The combination of quantum size and Ga-diffusion effects substantially reduces the averaged e-h exchange interaction and leads to the reduced FSSs in the regime of high emission energy.",

author = "Ramirez, {H. Y.} and Lin, {C. H.} and Chao, {C. C.} and Y. Hsu and You, {W. T.} and Huang, {S. Y.} and Chen, {Y. T.} and Tseng, {H. C.} and Wen-Hao Chang and Sheng-Di Lin and Shun-Jen Cheng",

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AU - Ramirez, H. Y.

AU - Lin, C. H.

AU - Chao, C. C.

AU - Hsu, Y.

AU - You, W. T.

AU - Huang, S. Y.

AU - Chen, Y. T.

AU - Tseng, H. C.

AU - Chang, Wen-Hao

AU - Lin, Sheng-Di

AU - Cheng, Shun-Jen

PY - 2010/6/15

Y1 - 2010/6/15

N2 - A theoretical model for the electron-hole exchange interaction in three-dimensionally (3D) confining semiconductor nanostructures is presented to explain the observed decreasing tendency of the fine-structure splittings (FSSs) of small InGaAs/GaAs self-assembled quantum dots (QDs) with increasing the emission energies. The experimentally revealed FSS reduction is shown to be highly associated with the significant 3D spreading of electronic orbitals and reduced overlap of electron and hole wave functions in small and/or Ga-diffused QDs. The combination of quantum size and Ga-diffusion effects substantially reduces the averaged e-h exchange interaction and leads to the reduced FSSs in the regime of high emission energy.

AB - A theoretical model for the electron-hole exchange interaction in three-dimensionally (3D) confining semiconductor nanostructures is presented to explain the observed decreasing tendency of the fine-structure splittings (FSSs) of small InGaAs/GaAs self-assembled quantum dots (QDs) with increasing the emission energies. The experimentally revealed FSS reduction is shown to be highly associated with the significant 3D spreading of electronic orbitals and reduced overlap of electron and hole wave functions in small and/or Ga-diffused QDs. The combination of quantum size and Ga-diffusion effects substantially reduces the averaged e-h exchange interaction and leads to the reduced FSSs in the regime of high emission energy.

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

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Optical fine structures of highly quantized InGaAs/GaAs self-assembled quantum dots

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