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周靖 研究员

   

  一、基本信息 

      名:周靖                    

      别:男                           

      贯:上海                  

  出生年月:19844                      

  毕业院校:复旦大学                                                      

  学历学位:研究生/博士                     

  技术职务:研究员                   

  导师类别:博导                   

  工作部门:中国科学院上海技术物理研究所 物理室 

  联系电话:13585984042                  

  电子邮箱:jzhou@mail.sitp.ac.cn                               

  二、工作简历 

  20112015,美国密西根大学安娜堡分校,电子工程与计算机科学系,从事微纳光子学研究。 

  2015-至今,中国科学院上海技术物理研究所。    

  三、学术兼职 

  美国光学学会(Optica)偏振控制与传播技术组Vice Chair 

  学术期刊Symmetry的客座编辑 

  国际会议SOPOTPC委员 

  OpticaAdv. Mater.SmallOpt. ExpressACS Appl. Mater. Interfaces等期刊审稿人     

  四、科研工作简介 

  以红外探测技术的国家重大需求为牵引,聚焦集成微纳结构光场操控增强红外探测器的应用基础研究。揭示了一系列微纳结构调控探测材料光耦合的新机理,并建立了解决上述科学难题的新途径。 

  利用微纳结构操控局域光场,突破了亚波长介质光耦合弱以及光耦合结构吸收损耗严重的难题,实现响应率数倍到量级以上的提升,获得超越文献报道的等离激元微腔集成的量子阱光吸收率,相关成果被高光谱相机采纳。 

  基于具有偏振选择性的亚波长光子模式以及微偏振器与探测材料的双重偏振选择效应,突破了集成式偏振探测消光比不足的难题。获得了性能超越同行数倍至1个量级的集成式红外偏振探测器件,参与研制了偏振焦平面,已交付整机开发。 

  通过操控超材料的色散关系,突破了选择性宽谱吸收及辐射的难题,实现可见波段吸收率及辐射率高于90%,红外波段低于20%,以及可见到中红外可调控宽波段高吸收高辐射,为提高深空红外探测的信杂比提供了新思路。 

  发表学术论文51篇,其中第一及通信作者发表Phys. Rev. Lett.Adv. Mater.CarbonAdv. Opt. Mater.ACS PhotonicsNano ResearchNanoscale(内封底)等国际权威期刊论文31篇,其中11篇他引超过30次,单篇最高177次;所有论文他引944次。出版英文专著一本(第二作者)。申请发明专利12项。 

  部分成果获美国和中国科学院、工程院院士高度评价:“在成像领域有重大的潜在应用”,“具有广泛应用前景”;获多家国际科研媒体专题报道。     

  五、代表性论文专利 

  1. Jing Zhou, Ashwin Panday, Yuntao Xu, Xi Chen, Long Chen, Chengang Ji, and L. Jay Guo*, Visualizing Mie resonances in low-index dielectric nanoparticles, Phys. Rev. Lett. 120, 253902 (2018). 

  2. Jing Zhou, Xi Chen, L. Jay Guo*, Efficient ThermalLight Interconversions Based on Optical Topological Transition in the Metal-Dielectric Multilayered Metamaterials, Adv. Mater. 28, 3017-3023 (2016) 

  3. Shangkun Guo, Donghai Zhang, Jing Zhou*, Jie Deng, Yu Yu, Jianan Deng, Qingyuan Cai, Zhifeng Li, Wei Lu, Xiaoshuang Chen*, Enhanced infrared photoresponse induced by symmetry breaking in a hybrid structure of graphene and plasmonic nanocavities, Carbon 170, 49 (2020). 

  4. Jie Deng, Wei Zhang, Xu Dai, Yu Yu, Zhifeng Li, Wei Wang, Lin Wang*, Jing Zhou* and Xiaoshuang Chen*, Nonmonotonic wavelength dependence of polarization-sensitive infrared photoresponse of an anisotropic semimetal, Nanoscale 14, 7314 7321 (2022). 

  5. Yang Cao#, Congzhou Li#, Jie Deng#, Tong Tong, Yuchi Qian, Guixiang Zhan, Xu Zhang, Kaiyue He, Huifang Ma, Junran Zhang*, Jing Zhou*, and Lin Wang*, Enhanced Photodetector Performance of Black Phosphorus by Interfacing with Chiral Perovskite, Nano Res. 15, 74927497 (2022). 

  6. Yu Yu, Jing Zhou*, Qingyuan Cai, Zeshi Chu, Jie Deng, Wei Lu, Zhifeng Li, and Xiaoshuang Chen*, Dynamically tunable ultra-narrowband perfect absorbers for the visible-to-infrared range based on microcavity integrated graphene pair, Opt. Lett. 46, 2236 (2021). 

  7. Shangkun Guo, Jie Deng, Jing Zhou*, Yu Yu, Yonghao Bu, Tianyun Zhu, Xiansong Ren, Zhifeng Li, Wei Lu, and Xiaoshuang Chen*, Combined role of polarization matching and critical coupling in enhanced absorption of 2D materials based on metamaterials, Opt. Express 29, 9269 (2021). 

  8. Zeshi Chu, Yuwei Zhou, Jing Zhou*, PingPing Chen, Zhifeng Li, Wei Lu, Xiaoshuang Chen*, Quantum Well Infrared Detectors Enhanced by Faceted Plasmonic Cavities, Infrared Phys. Technol. 116, 103746 (2021). 

  9. Zeshi Chu, Jing Zhou*, Xu Dai, Fangzhe Li, Mengke Lan, Zhaoyu Ji, Wei Lu, Xiaoshuang Chen, Circular Polarization Discrimination Enhanced by Anisotropic Media, Adv. Opt. Mater. 8, 1901800 (2020). 

  10. Tao Zhen, Jing Zhou*, Zhifeng Li, Xiaoshuang Chen*, Realization of both high absorption of active materials and low ohmic loss in plasmonic cavities, Adv. Opt. Mater. 7, 1801627 (2019). 

  11. Jing Zhou, Alex F. Kaplan, Long Chen, L. Jay Guo, Experiment and theory of the broadband absorption by a tapered hyperbolic metamaterial array, ACS Photonics 1, 618 (2014) 

  12. Binkai Chen, Zhaoyu Ji, Jing Zhou*, Yu Yu, Xu Dai, Mengke Lan, Yonghao Bu, Tianyun Zhu, Zhifeng Li, Jiaming Hao, Xiaoshuang Chen*, Highly polarization-sensitive far infrared detector based on optical antenna integrated aligned carbon nanotube film, Nanoscale 12, 11808 (2020). 

  13. Jie Deng, Yuanliao Zheng, Jing Zhou*, Zhifeng Li, Shangkun Guo, Xu Dai, Yu Yu, Zhaoyu Ji, Zeshi Chu, Xiaoshuang Chen*, and Wei Lu, Absorption enhancement in all-semiconductor plasmonic cavity integrated THz quantum well infrared photodetectors, Opt. Express 28, 16427 (2020) 

  14. Fangzhe Li, Jie Deng, Jing Zhou*, Zeshi Chu, Yu Yu, Xu Dai, Huijun Guo, Lu Chen, Shangkun Guo, Mengke Lan, Xiaoshuang Chen*, HgCdTe mid-Infrared photo response enhanced by monolithically integrated meta-lenses, Sci. Rep. 10, 6372 (2020). 

  15. Donghai Zhang, Jing Zhou*, Changlong Liu, Shangkun Guo , Jianan Deng , Qingyuan Cai, Zhifeng Li, Yafeng Zhang, Wenqing Zhang, and Xiaoshuang Chen*, Enhanced polarization sensitivity by plasmonic-cavity in graphene phototransistors, J. Appl. Phys. 126, 074301 (2019). Selected as Editors Pick and Reported by SCIlight. 

  16. 周靖;储泽世;代旭;余宇;兰梦珂;郭尚坤;邓杰;陈效双;蔡清元;李方哲;嵇兆煜;一种集成式高消光比红外圆偏振探测器及设计方法, 2020-2-28, 中国, 202010126506.2. 

  17. 周靖;郭尚坤;余宇;嵇兆煜;代旭;邓杰;陈效双;蔡清元;储泽世;李方哲;兰梦珂;一种基于光学微带天线非对称集成的二维材料探测器, 2020-9-15, 中国, 202010965512.7. 

  18. 周靖;余宇;郭尚坤;嵇兆煜;代旭;储泽世;陈效双;蔡清元;李方哲;兰梦珂;邓杰;各向异性等离激元谐振腔石墨烯偏振探测器及设计方法, 2020-11-18, 中国, 202011290329.8. 

  19. 周靖;兰梦珂;储泽世;代旭;余宇;郭尚坤;邓杰;陈效双;蔡清元;李方哲;嵇兆煜;布勇浩;一种实现外延材料深亚波长光子模式体积的平面漏斗微腔,2020-2-28, 中国, 202010126419.7 

  20. 周靖;唐伟伟;刘昌龙;陈彬凯;陈效双;一种实现波长拓展功能的量子阱红外探测器及设计方法,2017-8-30, 中国, 201710760257.0     

  六、培养学生情况 

   截止20227月,在读博士生3人、硕士生2人,已毕业博士生3人、硕士生5人(含作为二导)。就业率:100%。主要就业去向:科研院所、高校、高科技企业等。 

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