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师资队伍
周俊鹤
发布时间:2020-07-21        浏览次数:7762
                                                周俊鹤

职称教授,博士生导师

邮箱jhzhou@tongji.edu.cn

  

周俊鹤,男,2008年毕业于上海交通大学电子工程系,获博士学位;2006-2007受国家留学基金资助,在法国巴黎高等电信(ENST)攻读联合培养博士。现为同济大学电子与信息工程学院教授、副院长。

主要从事光芯片互联,光纤通信系统,智能光信号处理等方面的研究。在IEEE Journal of Quantum Electronics, IEEE Photonics Technology Letters, IEEE Journal of Lightwave technology, Optics Express等国际学术期刊及会议上发表论文130余篇,授权专利16项。主持国家自然科学基金项目3项,国家科技创新2030重大项目课题1项,其他国家级项目1项,上海市自然基金项目等纵向与横向项目多项。


近年发表论文:

[1]     Xu Liu†, Shilei Dai†, Weidong Zhao†, Junyao Zhang, Ziyi Guo, Yue Wu, Yutong Xu, Tongrui Sun, Li Li, Pu Guo, Jie Yang, Huawei Hu*, Junhe Zhou*, Peng Zhou*, Jia Huang*, “All-photolithography fabrication of ion-gated flexible organic transistor array for multimode neuromorphic computing,” Advanced Materials, 2312473, 2024.

[2]     Junhe Zhou, Wang Yuheng, and Tengyuan Liu, Polarization dependent gain in Raman fiber amplifiers with multiple pumps, Opt. Express vol. 32, pp. 5692-5704 2024.

[3]     Junhe Zhou, Haoqian Pu, and Jiaxin Yan, “Spatiotemporal diffractive deep neural networks,” Opt. Express, vol. 32, pp. 1864-1877, 2024.

[4]     Junhe Zhou, Yuheng Wang, and Tengyuan Liu, “Analytical Formulation of Fiber Nonlinear Noise Statistics in the Presence of Polarization Dependent Loss,” IEEE/OSA Journal of Lightwave technology, vol. 42, pp. 681-688, 2024.

[5]     Junhe Zhou and Qingsong Hu, Spherical Gauss-Laguerre beam propagation in 4D space-time, Opt. Express vol. 31, pp. 38334-38342, 2023.

[6]     Qiqi Wang and Junhe Zhou*, Small-angle measurement system enhanced by an optical phased array, Appl. Opt. vol. 62, pp. 7338-7345, 2023.

[7]     Junhe Zhou, Tengyuan Liu, and Yuheng Wang, Exact Noise Statistics in Equalized Polarization Multiplexing Systems in the Presence of Polarization Dependent Loss, IEEE/OSA Journal of Lightwave technology, vol. 41, pp. 5366-5372, 2023.

[8]     Jie Huang; Xuemei Ren; Qinxin Zhou; Junhe Zhou*, Zheng Xu*, “Flexible acoustic lens-based surface acoustic wave device for manipulation and directional transport of micro-particles,” Ultrasonics, vol. 128, 106865, 2023.

[9]     Junhe Zhou, Qingsong Hu, and Haoqian Pu, Nonlinear Fourier transform receiver based on a time domain diffractive deep neural network, Opt. Express, vol. 30, pp. 38576-38586, 2022.

[10]Junhe Zhou, Analytical formulation of quantum interference inside coupled waveguides with unequal losses, Opt. Express, vol. 30, pp. 38357-38370, 2022.

[11]Junhe Zhou, Characterization of PT-symmetric quantum interference based on the coupled mode theory, Opt. Express, vol. 30, pp. 23600-23607, 2022.

[12]Junhe Zhou, Haoqian Pu, and Qiqi Wang, Orbital angular momentum mode sorting based on a hybrid radial-angular hybrid lens, Opt. Express, vol. 30, pp. 9703-9713 2022.

[13]Junhe Zhou and Haoqian Pu, “Generalized Analytical Study on The Random Crosstalk in Multicore/Multimode Fibers,” IEEE/OSA Journal of Lightwave technology, vol. 40, No. 4, pp. 1112-1120, 2022.

[14]Junhe Zhou and Haoqian Pu, Analytical expressions for the crosstalk of super-modes in the tightly bounded multicore fibers, Opt. Express, vol. 30, pp. 4833-4844, 2022.

[15]Junhe Zhou and Haoqian Pu, Simple phase retrieval method based on two intensity measurements on a single plane, Appl. Opt., vol. 60, pp. 9975-9980, 2021.

[16]Ruizhi Wang, Pengyue Chen, Dandan Hao, Junyao Zhang, Qianqian Shi, Dapeng Liu, Li Li, Lize Xiong, Junhe Zhou*, and Jia Huang*, “Artificial Synapses Based on Lead-Free Perovskite Floating-Gate Organic Field-Effect Transistors for Supervised and Unsupervised Learning,” ACS Appl. Mater. Interfaces, vol. 13, no. 36, pp. 43144-43154, 2021.

[17]Junhe Zhou, Jianjie Wu, and Haoqian Pu, “Ring-shaped Talbot effect,” Physical Review A, vol. 103, 053506, 2021.

[18]Junhe Zhou, and Haoqian Pu, “Analytical study on the evolutionary behavior of transfer matrix element moments in strongly coupled multimode systems,” Opt. Express, vol. 29, pp. 13987-14005, 2021.

[19]Junhe Zhou, and Qinsong Hu, Higher Order Statistics of Parametric Amplifier Gain Variation Due to Dispersion Fluctuation, IEEE/OSA Journal of Lightwave technology, vol. 39, no.5, pp. 1391-1399, 2021.

 


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