Phonon-assisted upconversion photoluminescence of quantum emitters附视频

被引:0
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作者
Yuanfei Gao [1 ]
JiaMin Lai [2 ,3 ]
Jun Zhang [2 ,3 ]
机构
[1] Beijing Academy of Quantum Information Sciences
[2] State Key Laboratory of Superlattices and Microstructures, Institute of Semiconductors
[3] Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Chinese Academy of
来源
Journal of Semiconductors | 2023年 / 04期
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摘要
Quantum emitters are widely used in quantum networks, quantum information processing, and quantum sensing due to their excellent optical properties. Compared with Stokes excitation, quantum emitters under anti-Stokes excitation exhibit better performance. In addition to laser cooling and nanoscale thermometry, anti-Stokes excitation can improve the coherence of single-photon sources for advanced quantum technologies. In this review, we follow the recent advances in phononassisted upconversion photoluminescence of quantum emitters and discuss the upconversion mechanisms, applications, and prospects for quantum emitters with anti-Stokes excitation.
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页数:10
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  • [1] Review on the quantum emitters in two-dimensional materials[J] Shuliang Ren;Qinghai Tan;Jun Zhang; Journal of Semiconductors 2019, 07
  • [2] Laser Cooling of a Lattice Vibration in van der Waals Semiconductor.[J] Lai JiaMin;Sun YuJia;Tan QingHai;Tan PingHeng;Zhang Jun Nano letters 2022,
  • [3] Quantum-dot-based deterministic photon-emitter interfaces for scalable photonic quantum technology.[J] Uppu Ravitej;Midolo Leonardo;Zhou Xiaoyan;Carolan Jacques;Lodahl Peter Nature nanotechnology 2021,
  • [4] Phonon-assisted up-conversion photoluminescence of quantum dots.[J] Ye Zikang;Lin Xing;Wang Na;Zhou Jianhai;Zhu Meiyi;Qin Haiyan;Peng Xiaogang Nature communications 2021,
  • [5] Robust coherent control of solid-state spin qubits using anti-Stokes excitation.[J] Wang JunFeng;Yan FeiFei;Li Qiang;Liu ZhengHao;Cui JinMing;Liu ZhaoDi;Gali Adam;Xu JinShi;Li ChuanFeng;Guo GuangCan Nature communications 2021,
  • [6] Stimulated Emission Depletion Spectroscopy of Color Centers in Hexagonal Boron Nitride.[J] Malein Ralph Nicholas Edward;Khatri Prince;Ramsay Andrew J;Luxmoore Isaac J ACS photonics 2021,
  • [7] A bright and fast source of coherent single photons[J] Tomm Natasha;Javadi Alisa;Antoniadis Nadia Olympia;Najer Daniel;Löbl Matthias Christian;Korsch Alexander Rolf;Schott Rüdiger;Valentin Sascha René;Wieck Andreas Dirk;Ludwig Arne;Warburton Richard John Nature Nanotechnology 2021,
  • [8] Photonic Crystal Optical Parametric Oscillator.[J] Marty Gabriel;Combrié Sylvain;Raineri Fabrice;De Rossi Alfredo Nature photonics 2021,
  • [9] Identifying carbon as the source of visible single-photon emission from hexagonal boron nitride.[J] Mendelson Noah;Chugh Dipankar;Reimers Jeffrey R;Cheng Tin S;Gottscholl Andreas;Long Hu;Mellor Christopher J;Zettl Alex;Dyakonov Vladimir;Beton Peter H;Novikov Sergei V;Jagadish Chennupati;Tan Hark Hoe;Ford Michael J;Toth Milos;Bradac Carlo;Aharonovich Igor Nature materials 2020,
  • [10] Mechanical decoupling of quantum emitters in hexagonal boron nitride from low-energy phonon modes.[J] <au-aff> <au id="1"> <name>Hoese Michael</name> <mail></mail> <aff city="" country="" > <institution content-type="inst"></institution> <institution content-type="dept"></institution> <raw_aff>Institute for Quantum Optics, Ulm University, D-8908
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