Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth

S. F. Chichibu; H. Marchand; M. S. Minsky; S. Keller; P. T. Fini; J. P. Ibbetson; S. B. Fleischer; J. S. Speck; J. E. Bowers; E. Hu; U. K. Mishra; S. P. DenBaars; T. Deguchi; T. Sota; S. Nakamura

doi:10.1063/1.123581

Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth

S. F. Chichibu^*, H. Marchand, M. S. Minsky, S. Keller, P. T. Fini, J. P. Ibbetson, S. B. Fleischer, J. S. Speck, J. E. Bowers, E. Hu, U. K. Mishra, S. P. DenBaars, T. Deguchi, T. Sota, S. Nakamura

^*この研究の対応する著者

先進理工学部

研究成果: Article › 査読

172 被引用数 (Scopus)

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The emission mechanisms of bulk GaN and InGaN quantum wells (QWs) were studied by comparing their optical properties as a function of threading dislocation (TD) density, which was controlled by lateral epitaxial overgrowth. Slightly improved excitonic photoluminescence (PL) intensity was recognized by reducing TD density from 10¹⁰cm^-2 to less than 10⁶cm^-2. However, the major PL decay time was independent of the TD density, but was rather sensitive to the interface quality or material purity. These results suggest that TDs simply reduce the net volume of light-emitting area. This effect is less pronounced in InGaN QWs where carriers are effectively localized at certain quantum disk size potential minima to form quantized excitons before being trapped in nonradiative pathways, resulting in a slow decay time. The absence of any change in the optical properties due to reduction of TD density suggested that the effective band gap fluctuation in InGaN QWs is not related to TDs.

本文言語	English
ページ（範囲）	1460-1462
ページ数	3
ジャーナル	Applied Physics Letters
巻	74
号	10
DOI	https://doi.org/10.1063/1.123581
出版ステータス	Published - 1999 3月 8

ASJC Scopus subject areas

物理学および天文学（その他）

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10.1063/1.123581

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Chichibu, S. F., Marchand, H., Minsky, M. S., Keller, S., Fini, P. T., Ibbetson, J. P., Fleischer, S. B., Speck, J. S., Bowers, J. E., Hu, E., Mishra, U. K., DenBaars, S. P., Deguchi, T., Sota, T., & Nakamura, S. (1999). Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth. Applied Physics Letters, 74(10), 1460-1462. https://doi.org/10.1063/1.123581

Chichibu, SF, Marchand, H, Minsky, MS, Keller, S, Fini, PT, Ibbetson, JP, Fleischer, SB, Speck, JS, Bowers, JE, Hu, E, Mishra, UK, DenBaars, SP, Deguchi, T, Sota, T & Nakamura, S 1999, 'Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth', Applied Physics Letters, vol. 74, no. 10, pp. 1460-1462. https://doi.org/10.1063/1.123581

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title = "Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth",

abstract = "The emission mechanisms of bulk GaN and InGaN quantum wells (QWs) were studied by comparing their optical properties as a function of threading dislocation (TD) density, which was controlled by lateral epitaxial overgrowth. Slightly improved excitonic photoluminescence (PL) intensity was recognized by reducing TD density from 1010cm-2 to less than 106cm-2. However, the major PL decay time was independent of the TD density, but was rather sensitive to the interface quality or material purity. These results suggest that TDs simply reduce the net volume of light-emitting area. This effect is less pronounced in InGaN QWs where carriers are effectively localized at certain quantum disk size potential minima to form quantized excitons before being trapped in nonradiative pathways, resulting in a slow decay time. The absence of any change in the optical properties due to reduction of TD density suggested that the effective band gap fluctuation in InGaN QWs is not related to TDs.",

author = "Chichibu, {S. F.} and H. Marchand and Minsky, {M. S.} and S. Keller and Fini, {P. T.} and Ibbetson, {J. P.} and Fleischer, {S. B.} and Speck, {J. S.} and Bowers, {J. E.} and E. Hu and Mishra, {U. K.} and DenBaars, {S. P.} and T. Deguchi and T. Sota and S. Nakamura",

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AU - Chichibu, S. F.

AU - Marchand, H.

AU - Minsky, M. S.

AU - Keller, S.

AU - Fini, P. T.

AU - Ibbetson, J. P.

AU - Fleischer, S. B.

AU - Speck, J. S.

AU - Bowers, J. E.

AU - Hu, E.

AU - Mishra, U. K.

AU - DenBaars, S. P.

AU - Deguchi, T.

AU - Sota, T.

AU - Nakamura, S.

PY - 1999/3/8

Y1 - 1999/3/8

N2 - The emission mechanisms of bulk GaN and InGaN quantum wells (QWs) were studied by comparing their optical properties as a function of threading dislocation (TD) density, which was controlled by lateral epitaxial overgrowth. Slightly improved excitonic photoluminescence (PL) intensity was recognized by reducing TD density from 1010cm-2 to less than 106cm-2. However, the major PL decay time was independent of the TD density, but was rather sensitive to the interface quality or material purity. These results suggest that TDs simply reduce the net volume of light-emitting area. This effect is less pronounced in InGaN QWs where carriers are effectively localized at certain quantum disk size potential minima to form quantized excitons before being trapped in nonradiative pathways, resulting in a slow decay time. The absence of any change in the optical properties due to reduction of TD density suggested that the effective band gap fluctuation in InGaN QWs is not related to TDs.

AB - The emission mechanisms of bulk GaN and InGaN quantum wells (QWs) were studied by comparing their optical properties as a function of threading dislocation (TD) density, which was controlled by lateral epitaxial overgrowth. Slightly improved excitonic photoluminescence (PL) intensity was recognized by reducing TD density from 1010cm-2 to less than 106cm-2. However, the major PL decay time was independent of the TD density, but was rather sensitive to the interface quality or material purity. These results suggest that TDs simply reduce the net volume of light-emitting area. This effect is less pronounced in InGaN QWs where carriers are effectively localized at certain quantum disk size potential minima to form quantized excitons before being trapped in nonradiative pathways, resulting in a slow decay time. The absence of any change in the optical properties due to reduction of TD density suggested that the effective band gap fluctuation in InGaN QWs is not related to TDs.

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Emission mechanisms of bulk GaN and InGaN quantum wells prepared by lateral epitaxial overgrowth

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