Wavelength tunable quantum dot single-photon source with a side gate

Toshihiro Nakaoka; Yugo Tamura; Toshiyuki Miyazawa; Katsuyuki Watanabe; Yasutomo Ota; Satoshi Iwamoto; Yasuhiko Arakawa

doi:10.1143/JJAP.51.02BJ05

Wavelength tunable quantum dot single-photon source with a side gate

Toshihiro Nakaoka, Yugo Tamura, Toshiyuki Miyazawa, Katsuyuki Watanabe, Yasutomo Ota, Satoshi Iwamoto, Yasuhiko Arakawa

研究成果: Article › 査読

2 被引用数 (Scopus)

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We demonstrate photon antibunching from a wavelength controlled quantum dot single-photon source with a side gate. The photoluminescence peaks from the quantum dots embedded in the side-gate structure are clearly identified as a neutral exciton and a neutral biexciton by the studies of excitation-power dependence, polarization dependence, and photon correlation. The neutral exciton energy is controlled by the side gate via the quantum confined Stark effect. Measurement of the second-order autocorrelation function indicates g ⁽²⁾(0) = 0.07 at 0 V, 0.14 at 0.8 V, and 0.24 at 0.9 V. The results show g ⁽²⁾(0) are below the 0.5 limit necessary for classification as a single photon source even under applied gate voltage. We also show a biexciton-exciton cascade which can be used to create entangled photon pairs.

本文言語	English
論文番号	02BJ05
ジャーナル	Japanese journal of applied physics
巻	51
号	2 PART 2
DOI	https://doi.org/10.1143/JJAP.51.02BJ05
出版ステータス	Published - 2012 2月
外部発表	はい

ASJC Scopus subject areas

工学（全般）
物理学および天文学（全般）

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10.1143/JJAP.51.02BJ05

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引用スタイル

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title = "Wavelength tunable quantum dot single-photon source with a side gate",

abstract = "We demonstrate photon antibunching from a wavelength controlled quantum dot single-photon source with a side gate. The photoluminescence peaks from the quantum dots embedded in the side-gate structure are clearly identified as a neutral exciton and a neutral biexciton by the studies of excitation-power dependence, polarization dependence, and photon correlation. The neutral exciton energy is controlled by the side gate via the quantum confined Stark effect. Measurement of the second-order autocorrelation function indicates g (2)(0) = 0.07 at 0 V, 0.14 at 0.8 V, and 0.24 at 0.9 V. The results show g (2)(0) are below the 0.5 limit necessary for classification as a single photon source even under applied gate voltage. We also show a biexciton-exciton cascade which can be used to create entangled photon pairs.",

author = "Toshihiro Nakaoka and Yugo Tamura and Toshiyuki Miyazawa and Katsuyuki Watanabe and Yasutomo Ota and Satoshi Iwamoto and Yasuhiko Arakawa",

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T1 - Wavelength tunable quantum dot single-photon source with a side gate

AU - Nakaoka, Toshihiro

AU - Tamura, Yugo

AU - Miyazawa, Toshiyuki

AU - Watanabe, Katsuyuki

AU - Ota, Yasutomo

AU - Iwamoto, Satoshi

AU - Arakawa, Yasuhiko

PY - 2012/2

Y1 - 2012/2

N2 - We demonstrate photon antibunching from a wavelength controlled quantum dot single-photon source with a side gate. The photoluminescence peaks from the quantum dots embedded in the side-gate structure are clearly identified as a neutral exciton and a neutral biexciton by the studies of excitation-power dependence, polarization dependence, and photon correlation. The neutral exciton energy is controlled by the side gate via the quantum confined Stark effect. Measurement of the second-order autocorrelation function indicates g (2)(0) = 0.07 at 0 V, 0.14 at 0.8 V, and 0.24 at 0.9 V. The results show g (2)(0) are below the 0.5 limit necessary for classification as a single photon source even under applied gate voltage. We also show a biexciton-exciton cascade which can be used to create entangled photon pairs.

AB - We demonstrate photon antibunching from a wavelength controlled quantum dot single-photon source with a side gate. The photoluminescence peaks from the quantum dots embedded in the side-gate structure are clearly identified as a neutral exciton and a neutral biexciton by the studies of excitation-power dependence, polarization dependence, and photon correlation. The neutral exciton energy is controlled by the side gate via the quantum confined Stark effect. Measurement of the second-order autocorrelation function indicates g (2)(0) = 0.07 at 0 V, 0.14 at 0.8 V, and 0.24 at 0.9 V. The results show g (2)(0) are below the 0.5 limit necessary for classification as a single photon source even under applied gate voltage. We also show a biexciton-exciton cascade which can be used to create entangled photon pairs.

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Wavelength tunable quantum dot single-photon source with a side gate

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