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刘杰涛,博士,研究员,博士生导师,河北省科技创新团队 研究方向:新型信息光电子材料与器件、光电子器件与集成、光子计算芯片、计算光学成像与感知 电子邮箱:liujietao@xii.ac.cn 通讯地址:河北省雄安新区雄县雄安创新研究院 邮编:071600 |
代招单位:中国科学院大学材料科学与光电技术学院、中国科学院大学雄安学院
招生专业:080903 微电子学与固体电子学 080502 材料学
招生方向:光学工程;应用物理;光信息科学与技术;通信工程;电子信息等相关学科及专业
光子AI计算芯片;计算光学成像探测及智能信息处理技术研究。
2022.05-至今,雄安创新研究院,通信光子集成芯片实验室,研究员。
2017.07-2022.04,西安电子科技大学,物理与光电工程学院,副教授。
2018.10-2019.10,英国伦敦大学学院(UCL),电子与电气工程学院,访问学者。
2015.10-2015.11,国家专业技术人才知识更新工程,中科院长光所,光电产业光学设计高级研修项目学习结业。
2014.07-2017.06,西安电子科技大学,物理与光电工程学院,讲师。
2009.09-2014.06,中国科学院大学,中国科学院半导体研究所,物理电子学,博士,硕博连读。
2005.09-2009.06,西北工业大学,理学院,应用物理学,学士。
[1] Wenjing Zhang, Minghao Chao, Qingsong Liu, Lingyun Zhuang, Bo Cheng, Botao Jiang, Guofeng Song, and Jietao Liu, “Broadband ultra-thin Long-Wave InfraRed metamaterial absorber based on trapezoidal pyramid array,” Results in Physics 52, 106813 (2023). (IF5.3/Q2)
[2] Jietao Liu, Wenhong Yang, Guofeng Song, and Qiaoqiang Gan, "Directly and instantly seeing through random diffusers by self-imaging in scattering speckles," PhotoniX 4 (1), 1 (2023). (IF:19.818/Q1/T1)
[3] Lingyun Zhuang, Wenjing Zhang, Jietao Liu, Minghao Chao, Qingsong Liu, Bo Cheng, Yun Xu, and Guofeng Song, "Switchable trifunctional terahertz absorber for both broadband and narrowband operations," Optics. Express, 30, 45848-45861 (2022).
[4] Wei Li, Jietao liu, Shunfu he, Lixian Liu, and Xiaopeng Shao, “Multitarget imaging through scattering media beyond 3D optical memory effect”, Optics Letters, 45(9), 2020.
[5] Liu, Jietao; Papakonstantinou, Ioannis; Hu, Haifeng; Shao, Xiaopeng, “Dynamically configurable successively switchable multispectral plasmon induced transparency”, Optics Letters, 44 (15), 3829-3832 (2019).
[6] L. Zhu, Y. Wu, J. Liu, T. Wu, L. Liu, and X. Shao, "Color imaging through scattering media based on phase retrieval with triple correlation," Optics and Lasers in Engineering, 124, 105796 (2020).
[7] Jietao Liu, Jiannan Wang, Wei Li, Xueying Sun, Lei Zhu, Chengfei Guo, Xiaopeng Shao,“Programmable Multiwavelength Achromatic Focusing and Imaging through Scattering Media”, IEEE Photonics Journal, 10(5), (2018).
[8] Zhi Liu, Jietao Liu, Buwen Cheng, Jun Zheng, Chuanbo Li, Chunlai Xue, Qiming Wang, “Enhanced light trapping in Ge-on-SOI photodetector by guided mode resonance effect”, Journal of Applied Physics, 124, 053101, (2018).
[9] Jin Li, Jietao Liu, Haifeng Hu, Yong Zhao, Feng Xia, “Tunable orbital angular momentum mode conversion in asymmetric long period fiber gratings”, IEEE Photonics Technology Letters, 29(23), 2103-2106, (2017).
[10] Huijuan Li, Tengfei Wu, Jietao Liu, Changmei Gong, and Xiaopeng Shao, “Simulation and experimental verification for imaging of grayscale objects through scattering layers”, Applied Optics, 55 (34), 9731 (2016).
[11] Dong Fu, Jietao Liu, Jiakun Song, Hailong Yu, Zuyin Zhang, Wenbo Wang, Yun Xu, Guofeng Song, and Xin Wei, “Coupled optical and electrical study of thin-film InGaAs photodetector integrated with surface InP Mie resonators”. Journal of Applied Physics, 119(10):839-843 (2016).
[12] Jietao Liu, Xiaoliang Zhao, Rui Gong, Tengfei Wu, Changmei Gong, and Xiaopeng Shao, “Polarization-selective dynamically tunable multispectral Fano resonances: decomposing of subgroup plasmonic resonances”. Optics. Express, 23 (21), 27343-27353, (2015).
[13] Jiakun, Song, Jietao, Liu, Yuzhi, Song, Kangwen, Li, Zuyin, Zhang, Yun, Xu, Xin, Wei, Guofeng, Song, “Plasmon-Induced Transparency and Dispersionless Slow Light in a Novel Metamaterial”, IEEE. Photonics. Technology. Letters, 27 (11), 1177-1180, (2015).
[14] Fu, Dong, Liu, Jietao, Zhu, Xi, Li, Jian, Xu, Yun, Song, Guofeng, Wei, Xin, “Exploring the effective photon management by InP nanoparticles: Broadband light absorption enhancement of InP/In0.53Ga0.47As/InP thin-film photodetectors”, Journal of Applied Physics 117 (20), 203102. (2015).
[15] Jiakun Song, Jietao Liu, Kangwen Li, Xin Wei, Guofeng Song, “Dynamically tunable Plasmon induced transparency in planar metamaterials nanostructure”, IEEE. Photonics. Technology. Letters, 26 (11), 1104-1107 (2014).
[16] Jietao Liu, Binzong Xu, Jing Zhang, Guofeng Song, "Sensitive refractive index sensing with good operation angle polarization tolerance using a plasmonic split-ring resonator array with broken symmetry," J. Phys. D-Applied. Physics, 46, 195104 (2013).
[17] Jietao Liu, Binzong Xu, Haifeng Hu, Jing Zhang, Xin Wei, Yun Xu and Guofeng Song, "Tunable coupling induced transparency band due to coupled localized electric resonance and quasiguided photonic mode in hybrid plasmonic system," Optics. Express, 21, 13386-13393 (2013).
[18] Binzong Xu, Haifeng Hu, Jietao Liu, Xin Wei, Qing Wang, Guofeng Song, and Yun Xu, "Terahertz light deflection in doped semiconductor slit arrays," Optics. Communications, 308, 74-77 (2013).
[19] Jietao Liu, Binzong Xu, Jing Zhang, Guofeng Song, "Double Plasmon-Induced Transparency in Hybrid Waveguide-Plasmon System and Its Application for Localized Plasmon Resonance Sensing with High Figure of Merit," Plasmonics, DOI: 10.1007/s11468-013-9501-6 (2013).
[20] Jietao Liu, Jing Zhang, Likang Cai, Binzong Xu, Guofeng Song, "Tunable Omnidirectional Broadband Band-Stop Filter in Symmetric Hybrid Plasmonic Structures," Plasmonics, DOI: 10.1007/s11468-013-9515-0 (2013).
[21] Xiang chunping, Liu Jietao, Jin yu, Xu binzong, Wang weimin, Wei xin, Song guofeng and Xu yun, “Effective Absorption Enhancement in Small Molecule Organic Solar Cells by Employing Trapezoid Gratings”,
Chinese. Physics. B (2013).
[22] Xu binzong, Liu jietao, Hu haifeng, Wang lina, Wei xin, Song guofeng, “High sensitivity index sensor based on magnetic plasmon resonance in metallic grating with very narrow slits”, Chinese. Physics. Letter, Vol. 30, No.4, 040702 (2013).
[23] Xu binzong, Liu jietao, Cai likang, Hu haifeng, Wang qing, Wei xin, Song guofeng, "The Generation of a Compact Azimuthally Polarized Vertical-Cavity Surface Emitting Laser Beam with Radial Slits," Chinese. Physics. Letter, Vol. 30, No.3, 034206 (2013).
[24] Liu jietao, Xu binzong, Zhang jing, Cai likang, Song guofeng, "Gain-assisted indented plasmonic waveguide for low-threshold nanolaser applications," Chinese. Physics. B, 21(10), (2012).
近年完成国家自然科学基金、科技委、国防预研等项目20余项,在研国家科研攻关项目多项。目前已发表国际会议及主流核心高质量学术期刊论文50余篇,指导学生发表期刊封面1次,获优秀论文奖2次。文章以第一作者或者通讯作者发表于PhotoniX, Optics Letters, Optics Express,Optics and Lasers in Engineering, Applied Physics Letters, Journal of Applied Physic, IEEE Photonics Technology Letters, IEEE Photonics Journal, J. Phys. D-Applied. Physics等国际知名主流光学类期刊。详情可参考ORCID:0000-0002-1156-9775 (https://orcid.org/0000-0002-1156-9775)
2014年微纳结构器件的光学调控相关研究成果,被纳米光子学领域全球知名专家和领军人物W. L. Barnes and A. N. Grigorenko教授于2018年发表的Chemical Reviews (IF:52.6) 综述中作为分类方法的典型代表而引用。2023年与沙特国王科技大学(KAUST)Prof. Gan创新研究团队合作,新颖散射光子实时计算成像及超分辨率提升方法研究成果发表于光学TOP (JCR 2023收录的101种光学期刊中排名第3)、光学工程及光学领域高质量(T1级)期刊PhotoniX(19.818/Q1/T1),研究成果被10余家国内外专业杂志与平台推送报道,包括Physics.org(Novel method helps recover obscured images (phys.org))、Photonics Media (Speckle-correlation Technique Recovers Images of Obscured Objects in Real Time | Technology News | Apr 2023 | Photonics Spectra)、Scitech daily (Breaking Through the Haze: A New Method for Clearer Images (scitechdaily.com))、Today Headline (A New Method For Clearer Images (todayheadline.co))、NewsBeezer (newsbeezer.com)、KAUST-news、以及YouTube-Earth's Core Didn't Stop Spinning、中国光学期刊网-科技动态、两江科技评论等。
近年获授权发明专利40余项,获授权第一发明人发明专利12项,指导研究生获省级创新创业大赛铜奖1次,银奖1次,获省级创新成果二等奖1次。
