唐建伟

个人信息Personal Information

副教授   博士生导师   硕士生导师  

性别:男

在职信息:在职

所在单位:物理学院

学历:研究生(博士)毕业

学位:工学博士学位

毕业院校:浙江大学

学科:光学

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个人简介Personal Profile

唐建伟,18luck新利电竞 物理学院副教授,博士生导师。研究方向包括微纳光学、量子光学和荧光光谱学等。近年来主要围绕固态量子发光体的微纳调控开展研究工作,并取得系列原创成果,通过微纳操控技术将单分子、单量子点、稀土掺杂上转换纳米晶等固态量子发光系统与等离激元纳腔、光波导、光子晶体微腔等微纳光子结构混合集成,在微纳尺度上调控量子系统的发光特性,实现具有高亮度、高稳定性、高可控性等优异性能的量子光源,并应用于光量子信息处理芯片、微纳光场探测和成像等,以(共同)第一或通讯作者发表高水平论文多篇,包括1Nature Photonics (2023), 2Nature Communications (2018, 2022), 1Light: Science & Applications (2020).


近五年发表的代表性研究论文(#共同第一作者;*通讯作者)

§ Y. J. Meng, D. X. Huang, H. Li, X. Feng, F. Li, Q. Y. Liang, T. Z. Ma, J. H. Han, J. W. Tang*, G. Y. Chen* & X.-W. Chen*. Bright single-nanocrystal upconversion at sub 0.5 W cm-2 irradiance via coupling to single nanocavity mode. Nature Photonics (2022).

https://doi.org/10.1038/s41566-022-01101-z

§ P. L. Ren#, S. M. Wei#, W. X. Liu#, S. P. Lin, Z. H. Tian, T. L. Huang, J. W. Tang*, Y. C. Shi* & X. W. Chen*. Photonic-circuited resonance fluorescence of single molecules with an ultrastable lifetime-limited transition. Nature Communications 13, 3982 (2022).

https://doi.org/10.1038/s41467-022-31603-x

§ Y. J. Meng, H. Li, J. W. Tang* & X. W. Chen*. Modulation of upconversion luminescence spectrum of single rare-earth-doped upconversion nanocrystal based on plasmonic nanocavity. Acta Physica Sinica 71, 027801 (2022). (Editors’ Pick)

https://doi.org/10.7498/aps.71.20211438

§ J. Xia, J. W. Tang*, F. L. Bao, Y. C. Sun, M. D. Fang, G. J. Cao, J. Evans & S. L. He*. Turning a hot spot into a cold spot: polarization-controlled Fano-shaped local-field responses probed by a quantum dot. Light: Science & Applications 9, 166 (2020).

https://doi.org/10.1038/s41377-020-00398-1

§ J. Xia, J. W. Tang*, F. L. Bao, J. Evans & S. L. He*. Channel competition in emitter-plasmon coupling. Optics Express 27, 30893 (2019).

https://doi.org/10.1364/OE.27.030893

§ J. W. Tang#, J. Xia#, M. D. Fang#, F. L. Bao, G. J. Cao, J. Q. Shen, J. Evans & S. L. He*. Selective far-field addressing of coupled quantum dots in a plasmonic nanocavity. Nature Communications 9, 1705 (2018).

https://doi.org/10.1038/s41467-018-04077-z



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