秦楡禄

研究生导师简介

姓名：秦楡禄，性别：男   

学科专业：光学

学历及学位：博士研究生

职称：副教授

职务：无

联系方式（邮箱）：qinyulu@pku.edu.cn

研究方向：

机器学习与低维材料超快光物理

主要科研项目：

[1]国家自然科学基金青年基金，《基于超高时空分辨研究局域等离激元调控二维材料的谷极化》 （12204018），20万，202301-202412，主持；

[2]国家自然科学基金面上项目，《超高时空分辨研究手性等离激元操控TMDCs的谷电子动力学》（12474303）52万，202501-202812，主持；

[3]国家自然科学基金重点项目，《低维材料及其异质结中载流子动力学的超高时空分辨研究》（12334013），239万，202401-202812，参与；

[4]国家自然科学基金重点项目，《超快局域等离激元动力学演化的高时空分辨研究》（91850109）， 80万，201901-202112，参与。

近期代表性论文及成果：

[1] Qin Y, Wang R, Wu X, et al. Ultrafast Electronic Dynamics in Anisotropic Indirect Interlayer Excitonic States of Monolayer WSe₂/ReS₂ Heterojunctions[J]. Nano Letters, 2023, 23(18): 8643-8649.

[2] Qin, Y., Xu, Y., Ji, B., Song, X., & Lin, J. Coaction effect of radiative and non-radiative damping on the lifetime of localized surface plasmon modes in individual gold nanorods. The Journal of Chemical Physics, 2023， 158(10).

[3] Qin, Y., Xu, Y., Ji, B., Song, X., & Lin, J. Spatiotemporal imaging of the longitudinal and transverse components of the few-cycle surface plasmon polaritons near-field in nano-femto scale by time-resolved photoemission electron microscopy. Applied Physics B, 2022， 128(4), 83.

[4] Sun, B., Ji, B., Lang, P., Qin, Y.*, & Lin, J. Local near-field optical response of gold nanohole excited by propagating plasmonic excitations. Optics Communications, 2022, 505, 127498.

[5] Qin, Y., Ji, B., Song, X., & Lin, J. Ultrafast spatiotemporal control of directional launching of surface plasmon polaritons in a plasmonic nano coupler. Photonics Research,2021,9(4), 514-520.

[6] Qin, Y., Ji, B., Song, X., & Lin, J. Efficient plasmonic functional lens constructed via a nano-dichroic element. JOSA B, 2021, 38(9), C58-C62.

[7] Zhao, X, Qin, Y.*, Ji, B., Song, X., & Lin, J..飞秒传输表面等离激元的近场成像表征与激发效率的调控[J].物理学报, 2021,70:102.

[8] Zhao, Z., Ji, B., Wang, G., Qin, Y.*, Song, X., & Lin, J. Symmetrical double-groove structure as a broadband plasmonic polarization multiplexer. Optical Materials Express, 11(9), 2021, 2806-2816.

[9] Qin, Y., Ji, B., Song, X., & Lin, J. Disclosing transverse spin angular momentum of surface plasmon polaritons through independent spatiotemporal imaging of its in-plane and out-of-plane electric field components[J]. Photonics Research, 2020,8(6): 1042-1048.

[10] Qin, Y., Xu, Y Ji, B., Song, X., & Lin, J. Demonstrating a two-dimensional-tunable surface plasmon polariton dispersion element using photoemission electron microscopy[J]. Optics Letters, 2019, 44(11): 2935-2938.

[11] Qin, Y., Ji, B., Song, X., & Lin, J. Characterization of ultrafast plasmon dynamics in individual gold bowtie by time-resolved photoemission electron microscopy[J]. Applied Physics B, 2019,125(1): 3.

个人荣誉及获奖：

浙江省科协青年托举人才和衢州市“南孔精英计划”创新人才。美国光学学会旗下学术期刊optica的年度“Qualified Reviewers”