张丽强,工学博士,副教授,硕士生导师,伟德bv1946官网首页光岳系列人才计划入选者。
主要研究内容包括超短脉冲激光技术及应用、锁模光纤激光器以及光纤传感器件等。现主持国家级、校级、省级纵向科研项目4项,省级教研项目1项。首位获得伟德bv1946官网首页科学技术奖自然科学类二等奖一项,指导学生获得山东省大学生物理竞赛、山东省大学生光电竞赛、伟德bv1946官网首页大学生创新创业竞赛一、二、三等奖多项。
近几年研究成果:
专利:
张丽强,黄元川,白成林等。一种锁模光纤激光器。发明专利,ZL202210845489.7
张丽强,朱可心,王明红等。发明专利,一种基于多芯光纤的矢量弯曲传感器。ZL202311467160.2
王明红,张丽强,徐海龙。一种基于多芯光纤的光纤干涉滤波器。发明专利,ZL202410729134.0
张丽强,陈南光,姚一村,田振,韩海莉,王明红,周海苗,闫栋。实用新型专利,一种自启动Mamyshev超短脉冲光纤振荡器及自启动方法。202010752925.70
姚一村,陈南光,张丽强等。一种反MMI型波导马赫-曾德干涉器的制备方法,发明专利,ZL202010348656.8
姚一村,张丽强,德特列夫·基普等。一种“面发射”波导激光器谐振腔的制备方法。发明专利,ZL201910113237.3
张丽强,姚一村,田振等。实用新型专利,一种双波长同步脉冲光纤激光器。实用新型专利,201811082089.50
期刊论文:
Kexin Zhu, Liqiang Zhang*, Yicun Yao, Xiangdong Li, Jiaxin Li,Yuanzhen Liu,Minghong Wang,2-D Displacement Sensor With High Resolution and Simple Structure,IEEE Sensors Journal, 24(21), 34145-34150, 2024
Hailong Xu, Liqiang Zhang*, Yicun Yao, Minghong Wang, Yuanzhen Liu, Xiangdong Li, Jiaxin Li, Zhaogang Nie, Xiaohui Li,Filtering dynamics of an interference comb filter in a ytterbium-doped mode-locked fiber laser,Scientific Reports, 15, 11286, 2025
Hailong Xu, Liqiang Zhang*,Xiangdong Li,Jiaxin Li,Yuanzhen,Yicun Yao,Minghong Wang,Wavelength-Switchable Ytterbium-Doped Mode-Locked Fiber Laser Based on a Vernier Effect Filter,Micromachines,15, 1289, 2024
Yuanzhen Liu, Hailong Xu, Kexin Zhu, Yicun Yao, Yuman Suo, Liqiang Zhang*,Erbium-Doped Tunable Fiber Laser Based on a Vernier Effect Filter,Photonics, 11, 979, 2024
Tao Wei, Yanqing Zhang, Liqiang Zhang, Zhen Tian, Zhaogang Nie, Yicun Yao,Research on Ultra-High Sensitivity Fiber-Optic Cascaded Fabry-Perot Resonator Optical Sensor Based on the Comb-Spectrum Vernier Effect,Journal of Lightwave Technology, 42(17), 6182-6184, 2024
Kexin Zhu, Shijie Ren, Xiangdong Li, Yuanzhen Liu, Jiaxin Li, Liqiang Zhang*, Minghong Wang,Sub-Micron Two-Dimensional Displacement Sensor Based on a Multi-Core Fiber,Photonics, 11, 1073, 2024
Fan Yang, Liqiang Zhang, Minghong Wang, Nan-Kuang Chen, Yicun Yao, Zhen Tian, and Chenglin Bai,Wavelength-tunable mode-locked fiber laser based on an all-fiber Mach–Zehnder interferometer filter,Chinese Optics Letters, 21(4), 041401, 2023
Xiuying Tian, Liqiang Zhang*, Yicun Yao, Hailong Xu, Kexin Zhu, Xia Zhang, Zhaogang Nie,Interval Adjustable Dual-Wavelength Erbium-Doped Fiber Laser Based on Cascaded Two Mach-Zehnder Interferometers,Photonics, 10, 1156, 2023
Liqiang Zhang, Yicun Yao, Xiaohui Li, Nan-Kuang Chen, Chenglin Bai, Fan Yang, Zhen Tian, Yingying Ren, Minghong Wang, Dissipative dual-wavelength pulses synchronously mode-locked in a compact fiber laser, Optics and Laser Technology, 156,106085, 2022
Yuanchuan Huang, Liqiang Zhang*, Nan-Kuang Chen, Yanru Xie, Xia Zhang, Xiuying Tian, Chenglin Bai, Generation of dissipative solitons and self-similar pulses by a mode-locked fiber laser using a bandwidth tunable Mach-Zehnder interferometer filter, Results in Physics, 42, 106035, 2022
Dong Yan,Zhen Tian,Nan-Kuang Chen,Liqiang Zhang*,Yicun Yao,Yanru Xie,Perry Ping Shum,Kenneth T. V. Grattan,Daqin Wang, Observation of split evanescent field distributions in tapered multicore fibers for multiline nanoparticle trapping and microsensing, Optics Express,29(6), 9532-9543, 2021
Haili Han, Nan-Kuang Chen, Liqiang Zhang, Yanru Xie, Zhen Tian, Yicun Yao, Yuanchuan Huang, Xia Zhang, Output pulse characteristics of a Mamyshev fiber oscillator, Photonics, 8, 2021, 590
Yicun Yao, Liqiang Zhang, Yang Sun, Nan-Kuang Chen, Yuechen Jia, Yingying Ren, Silicon rib-loaded LiNbO3 waveguide polarization beam splitter based on bound state in the continuum design, Optics Communications, 497, 127190, 2021
Liqiang Zhang*, Zhuang Zhuo, Nan-Kuang Chen, Zhen Tian, Yanru Xie, Wave plate-dependent lasing regimes transitions in an all-normal-dispersion fiber laser mode-locked by nonlinear polarization rotation, Optics and Laser Technology, 126,106085, 2020
Liqiang Zhang, Zhen Tian, Nan-Kuang Chen, Haili Han, Chun-Nien Liu, Kenneth T. V. Grattan, Room-temperature power-stabilized narrow-linewidth tnnable Erbium-doped fiber ring laser based on cascaded Mach-Zehnder interferometers with different free spectral range for strain sensing, Journal of Lightwave Technology, 38(7), 1966-1974, 2020