best365英国体育在线
刘景锋

发布者:电智-管理员发布时间:2019-03-19浏览次数:2157


姓   名:刘景锋

技术职称:副教授

学历学位:理学博士

导师类别:硕士生导师

联系电话:13719281058

邮    箱:liujingfeng@scau.edu.cn

办公地点:best365英国体育在线2号楼209




个人简介:

刘景锋,华南农业大学,best365英国体育在线(人工智能学院),副教授。工作上态度认真,科研上努力钻研。根据自己求学和访学经历,能够做到了解学生,坦诚对待学生,并且认真指导。也希望学生能够有强烈主动的学习热情和探索动力。



教育经历:

博士     中山大学物理学院 (2006-2011)

研究领域 : 量子光学,光与物质相互作用,光子晶体结构中的量子调控

导    师 : 王雪华教授

硕士华南师范大学光电子信息科学与技术学院(2001-2004)

研究领域 : 量子信息, 量子密钥分发

导    师 : 梁瑞生教授

学士     聊城大学物理系(1997-2001)

物理学教育专业


工作经历:

2019/10-至今,华南农业大学,best365英国体育在线(人工智能学院),副教授

2022/02-2023/02新加坡科技设计大学访问学者,合作导师:WuLin

2014/12-2019/10,华南农业大学,best365英国体育在线,副教授

2017/06-2017/08美国威斯康星大学,best365英国体育在线短期访问,合作导师:Zongfu YU

2015/03-2016/03美国威斯康星大学,best365英国体育在线访问学者,合作导师:Zongfu YU

2007/07-2014/12,华南农业大学,理学院,讲师

2004/07-2007/07,华南农业大学,理学院,助教


研究领域

本人的前些年的研究聚焦在利用微纳结构调控量子系统的光辐射和光散射,并取得了一系列的研究成果。在光辐射和散射调控研究中,本人发展了空间量子通道理论、非均匀耗散结构中的量子格林函数理论、杂化腔结构中的少模式量子化模型和新的点群变换理论。

近年的研究兴趣聚焦在人工智能和物理科学的结合,探索深度学习技术在微纳结构设计中的重要应用。并尝试从物理学的角度探索人工智能的可解释性(跟随MITHarvardGoogle的研究)


承担科研项目情况


1.国家自然科学基金面上项目,11874438,表面等离激元与单量子系统室温强耦合作用量子调控研究,2019.01-2022.1264万元,在研,参与排名第二。

2. 国家自然科学基金青年项目,11204089,光子晶体中的量子纠缠动力学演化及其保护机理研究,2013/01-2015/1225万元,已结题,主持。

3.国家自然科学基金青年项目,11504115, 耦合光子晶体微腔调控自发辐射研究, 2016/01-2019/12, 20万元, 已结题,参与排名第二

4.国家自然科学基金青年项目,11504050, 金属纳米颗粒结构中受限光场与量子点强耦合相互作用理论研究, 2016/01-2019/12, 20万元, 已结题,参与排名第二

5.国家自然科学基金重点项目,11334015,人工微纳结构中纳米光场及光电子器件性能的仿真设计和快速计算,2014/01-2018/12, 325万元, 已结题, 参与排名第三

6. 国家自然科学基金青年项目,1104083,新型人工晶格波导中晶格孤子对称性自发破缺的研究,2012/01-2014/12, 25万元, 已结题, 排名第二


代表性论著(*通信作者,#共同贡献作者)

  1. Yu-Wei Lu, Yan-hui Zhao,  Run-hua Li,* Jing-Feng Liu, * Anomalous spontaneous emission dynamics at chiral exceptional points, Optics Express, Opt. Express 30(23), 41784-41803 (2022) .

  2. Wen-Jie Zhou, Jia-bin You, Xiao Xiong, Yu-Wei Lu, Lay Kee Ang, Jing-Feng Liu,* Lin Wu*, Cavity spectral-hole -burning to boost coherence in plasmon-emitter strong coupling systems, Nanotechnology 33, 47(2022)

  3. Jing-Feng Liu, Gengyan Chen, Lingyan Li, Renming Liu, Wei Li, Guanghui Liu, Feng Wu & Yongzhu Chen .  Radiative coupling of two quantum emitters in arbitrary metallic nanostructures. Scientific Reports 12, 6901 (2022)

  4. Yu-Wei Lu, Wen-Jie Zhou, Yongyao Li, Runhua Li, Jing-Feng Liu *, Lin Wu *, and Haishu Tan *. Unveiling atom- photon quasi-bound states in hybrid plasmonic-photonic cavity. Nanophotonics 11, 3307 (2022).

  5. Yu-Wei Lu#, Jing-Feng Liu#, Renming Liu, Rongbin Su, and Xue-Hua Wang. Quantum exceptional chamber induced by large nondipole effect of a quantum dot coupled to a nano-plasmonic resonator. Nanophotonics 10, 2431-2440 (2021).

  6. Gengyan Chen, Jing-Feng Liu,* Renming Liu, Guanghui Liu, Yongzhu Chen, Zhanxu Chen, and Xue-Hua Wang*,Radiative coupling and decay dynamics of two two-level quantum emitters in arbitrary dielectric nanostructures, Phys. Rev. A 101, 013828 (2020).

  7. Yu-Wei Lu, Ling-Yan Li, Chun-Lian You and Jing-Feng Liu.*Spectra of plasmon-exciton composite under weak coherent pumping within cavity QED treatment, J. Phys. B: At. Mol. Opt. Phys. 53,035401(2020).

  8. Zhang-Kai Zhou#, Jing-Feng Liu,# Yajun Bao, Lin Wu, Ching Eng Png, Xue-Hua Wang, Cheng-Wei QiuQuantum plasmonics get appliedProgress in Quantum Electronics2019,65(2):1–20.

  9. Yuwei Lu, Lingyan Li, Jing-Feng Liu.* Influence of surface roughness on strong light-matter interaction of a quantum emitter-metallic nanoparticle system , Scientific Reports, 2018. 8(1): 0~7115.

  10. Jing-Feng Liu, Ming Zhou, Lei Yin, Xuewen Chen, Zongfu Yu, Enhancing the optical cross section of quantum antenna, Physical Review A 95,013814(2017).

  11. Jing-Feng Liu, Ming Zhou, and Zongfu Yu, Quantum scattering theory of Fock states in high-dimensional spaceOptics Letters 41, 4166 (2016).

  12. Junhong Deng, Jing-Feng Liu,* Suiyan Tan, Zhihong Huang, YongyaoLi, Propagation dynamic of a Gaussian in the inverted nonlinear photonic crystalOptik 125, 4088(2014).

  13. Jing-Feng Liu, Lingyan Li, Yongyao Li, Haoxiang Jiang, High efficient and accuracy calculating of local density of states in two-dimensional photonic crystals, Journal of the Physical Society of Japan 82, 044402 (2013).

  14. Jing-Feng Liu, Lingyan Li, Yongyao Li, Haoxiang Jiang, Non-Markovian Spontaneous Emission Dynamic Evolution of an Emitter in Woodpile Photonic Crystals, Journal of the Physical Society of Japan 81, 114402(2012).

  15. Jing-Feng Liu, Haoxiang Jiang, Zongsong Gan, Baohua Jia, Xuehua Wang, Min Gu, Orientation-Dependent Local Density of States in Three-Dimensional Photonic Crystals, Phys. Rev. A 85, 015802 (2012).

  16. Jing-Feng Liu, Haoxiang Jiang, Zongsong Gan, Baohua Jia, Congjun Jin, Xuehua Wang, Min Gu, Lifetime distribution of spontaneous emission from emitter(s) in three-dimensional woodpile photonic crystals, Optics Express 19, 11623 (2011).

  17. Jing-Feng Liu, Xuehua Wang, Spontaneous emission in micro- and nano-structures, Frontier Physics in China 5, 245 (2010).


参与发表论文

  1. Yu-Wei Lu, Wei Li, Renming Liu, Yangxiong Wu, Haishu Tan, Yongyao Li, and Jing-Feng Liu. Plasmon-assisted low-threshold nanolasers. Physical Review B 106, 115434 (2022).

  2. Yu-Wei Lu, Jing-Feng Liu, Runhua Li, Haishu Tan, and Yongyao Li. Fano effect induced giant and robust enhancement of photon correlations in cavity QED systems. Optics Letters 14, 3411 (2022).

  3. Yu-Wei Lu, Jing-Feng Liu, Runhua Li, Yanxiong Wu, Haishu Tan, and Yongyao Li. Single-photon blockade in quasichiral atom–photon interaction: simultaneous high purity and high efficiency. New Journal of Physics 24, 053029 (2022).

  4. Wenbo Zhang, Jia-Bin You, Jingfeng Liu, Xiao Xiong, Zixian Li, Ching Eng Png, Lin Wu, Cheng-Wei Qiu, and Zhang-Kai ZhouSteering Room-Temperature Plexcitonic Strong Coupling: A Diexcitonic PerspectiveNano Lett. 2021, 21, 8979–8986(2021)

  5. Yu-Wei Lu, Jing-Feng Liu, Zeyang Liao, and Xue-Hua Wang*. Plasmonic-photonic cavity for high efficiency single-photon blockade. SCIENCE CHINA Physics, Mechanics & Astronomy 64, 274212 (2021)

  6. Gengyan Chen, Jing-Feng Liu, Hao-Xiang Jiang, Guanghui Liu, Yongzhu Chen, Zhanxu Chen, Xue-Hua Wang, Impact of Dipole Orientation on Strongly-Coupled System Composed of a Single Quantum Dot and a Photonic Crystal L3 Cavity, Journal of Physics B: Atomic, Molecular and Optical Physics, 2019, 52(3): 035503.

  7. GengYan Chen, Jing-Feng Liu, Yi-Cong Yu, RenMing Liu, GuiXin Zhu, YongZhu Chen, ZhanXu Chen, Xue-Hua Wang*, Dual Effects of Disorder on the Strongly-Coupled System Composed of a Single Quantum Dot and a Photonic Crystal L3 Cavity, Science China Physics, Mechanics & Astronomy, 2019, 62(6): 64211.

  8. Lei Ying, Ming Zhou, Xiaoguang Luo, Jingfeng Liu, and Zongfu Yu. Strong magneto-optical response enabled by quantum two-levelOptica, 5, 1156 (2018)

  9. Ming Zhou, Jingfeng Liu, Mikhail A. Kats, Zongfu Yu, Optical metasurface based on the resonant scattering in electronic transition , ACS Photonics 4, 1279(2017).

  10. Yuwei Lu, Chunlian You, Jingfeng Liu, Haoxiang Jiang, Lingyan Li, Undamped trace distance and coherence preservation of quantum bit in photonic crystal, Optics Communications 403, 385–390(2017)

  11. Ming Zhou, Jingfeng Liu, Mikhail A. Kats, and Zongfu Yu, Optical Metasurface Based on the Resonant Scattering in Electronic Transitions, ACS Photonics 4, 1279(2017).

  12. Xiaoguang Luo, Ming Zhou, Jingfeng Liu, Teng Qiu and Zongfu Yu, Magneto-optical metamaterials with extraordinarily strong magneto-optical effect, Applied Physics Letters, 108,131104 (2016)

  13. Jiahua Li, Zhiqiang Wei, Jiuliang Xu, Zhang-Kai Zhou, Delin Kong, Jingfeng Liu, Jiaming Liu, Xiaoyu Duan, Jiancai Xue, Jing Wang, Xuehua Wang, A Large-Scale Flexible Plasmonic Nanorod Array with Multifunction of Strong Photoluminescence Emission and Radiation Enhancement. Advanced Optical Materials 3,1355(2015)

  14. Zhaopin Chen, Jingfeng Liu, Shenhe Fu, Yongyao Li, Boris A. Malomed, Discrete solitons and vortices on two-dimensional lattices of PT –symmetric couplers, Optics Express 22, 29679 (2014)

  15. Jiaming Liu, Jingfeng Liu, Yicong Yu, Lingyu, Zeng, Xuehua Wang, Strong Anisotropic Lifetime Orientation Distributions of a Two-Level Quantum Emitter around a Plasmonic Nanorod, Nanoscale Research Letters 9, 194(2014)

  16. Yicong Yu, Jingfeng Liu, Xiaolu Zhuo, Gengyan Chen, Chongjun Jin, Xuehua Wang, Vacuum Rabi splitting in a coupled system of single quantum dot and photonic crystal cavity: effect of local and propagation Green’s functions, Optics Express 21, 23486 (2013)

  17. Gengyan Chen, Yicong Yu, Xiaolu Zhuo, Yonggang Huang, Haoxiang Jiang, Jingfeng Liu, Chongjun Jin, Xuehua Wang, Ab initio determination of local coupling interaction in arbitrary nanostructures: Application to photonic crystal slabs and cavities,Phys. Rev. B 87, 195138 (2013)

  18. Gengyan Chen, Jingfeng Liu, Haoxiang Jiang, Xiaolu Zhuo, Yicong Yu, Chongjun Jin, Xuehua Wang, Slab thickness tuning approach for solid-state strong coupling between photonic crystal slab nanocavity and a quantum dot, Nanoscale Research Letters 8,187(2013)

  19. Yongyao Li, Jingfeng Liu, Wei Pang, Boris A. Malomed, Symmetry breaking in dipolar matter-wave solition in dual-core coupler, Phys. Rev. A 87, 013604(2013)

  20. Zongsong Gan, Baohua Jia, Jingfeng Liu, Xuehua Wang, Min Gu, Enhancement of spontaneous emission in three-dimensional low refractiveindex photonic crystals with designed defects, Appl. Phys. Lett. 101, 071109(2012)

  21. Haoxing Jiang, Jingfeng Liu, Genyan Chen, Xuehua Wang, Diffractive Properties of Imaginary-Part Photonic Crystal Slab, Nanoscale Research Letters 7, 335(2012)

  22. Xiaoyun Wang, Banfu ding, Jingfeng Liu, Lin Yan, Heping Zhao, Non-Markovian and Markovian Dynamics of a V-type Three-Level Atom, Commun. Theor. Phys. 57, 276 (2012)

  23. Bangfu Ding, Xiaoyun Wang, Jingfeng Liu, Lin Yan, Heping Zhao, Quantum Discord Dynamics in Two Different Non-Markovian Reservoirs, CHIN. PHYS. LETT. 28, 104216 (2011)



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