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Quantum light source devices of In(Ga)As semiconductor self-assembled quantum dots

Quantum light source devices of In(Ga)As semiconductor self-assembled quantum dots
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摘要 A brief introduction of semiconductor self-assembled quantum dots (QDs) applied in single-photon sources is given. Single QDs in confined quantum optical microcavity systems are reviewed along with their optical properties and coupling characteristics. Subsequently, the recent progresses in In(Ga)As QDs systems are summarized including the preparation of quantum light sources, multiple methods for embedding single QDs into different microcavities and the scalability of single-photon emitting wavelength. Particularly, several In(Ga)As QD single-photon devices are surveyed including In(Ga)As QDs coupling with nanowires, InAs QDs coupling with distributed Bragg reflection microcavity and the In(Ga)As QDs coupling with micropillar microcavities. Furthermore, applications in the field of single QDs technology are illustrated, such as the entangled photon emission by spontaneous parametric down conversion, the single-photon quantum storage, the chip preparation of single-photon sources as well as the single-photon resonance-fluorescence measurements. A brief introduction of semiconductor self-assembled quantum dots(QDs) applied in single-photon sources is given.Single QDs in confined quantum optical microcavity systems are reviewed along with their optical properties and coupling characteristics. Subsequently, the recent progresses in In(Ga)As QDs systems are summarized including the preparation of quantum light sources, multiple methods for embedding single QDs into different microcavities and the scalability of single-photon emitting wavelength. Particularly, several In(Ga)As QD single-photon devices are surveyed including In(Ga)As QDs coupling with nanowires, InAs QDs coupling with distributed Bragg reflection microcavity and the In(Ga)As QDs coupling with micropillar microcavities. Furthermore, applications in the field of single QDs technology are illustrated, such as the entangled photon emission by spontaneous parametric down conversion, the single-photon quantum storage, the chip preparation of single-photon sources as well as the single-photon resonance-fluorescence measurements.
作者 Xiaowu He Yifeng Song Ying Yu Ben Ma Zesheng Chen Xiangjun Shang Haiqiao Ni Baoquan Sun Xiuming Dou Hao Chen Hongyue Hao Tongtong Qi Shushan Huang Hanqing Liu Xiangbin Su Xinliang Su Yujun Shi Zhichuan Niu
机构地区 State Key Laboratory for Superlattices and Microstructures School of Engineering State Key Laboratory of Optoelectronic Materials and Technologies Laboratory of Solid Quantum Material Center Center of Materials Science and Optoelectronics Engineering Beijing Academy of Quantum Information Sciences
出处 《Journal of Semiconductors》 EI CAS CSCD 2019年第7期27-37,共11页 半导体学报(英文版)
基金 supported by the National Key Technologies R&D Program of China(Grant No.2018YFA0306101) the Key R&D Program of Guangdong Province(Grant No.2018B030329001) the Scientific instrument developing project of the Chinese Academy of Science(Grant No.YJKYYQ20170032) the National Natural Science Foundation of China(Grant No.61505196)
关键词 QUANTUM OPTICS QUANTUM DOTS NANOWIRES light SOURCES quantum optics quantum dots nanowires light sources
分类号 TN [电子电信]
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Journal of Semiconductors
2019年 第7期

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