张武 副教授
教育背景 博士
研究领域 光学与电磁学
研究方向 人工超表面、微纳光学、光镊技术
电子邮箱 zhangwu@gzhu.edu.cn
所在系所 光电工程系 物理与材料科学学院



▍个人简介
2009年本科毕业于新加坡南洋理工大学电子电气工程学院微电子工艺专业（一等荣誉学位），2015年获南洋理工大学电子电气工程学院博士学位。2015~2018年于哈佛大学工程与应用科学学院从事博士后工作。主要研究方向为人工超表面、光镊技术及微流控技术，并在Advanced Optical Materials, Applied Physics Letters, Optics Express等学术刊物发表论文30多篇，多次在重要国际国内学术会议上做邀请报告，并参与了多项新加坡国家自然科学基金项目。　

▍担任主要课程
本科生课程：光电子技术，光电专业英语，数字电路与逻辑设计
研究生课程：应用光学，专业英语写作

▍主持课题
1. “基于平面超构透镜的微型光镊捕获系统的研究”，国家自然科学基金青年项目（24万元）， 2020-2022，主持
2. “基于微流控系统的可重构电磁超表面及其应用”，市校联合资助基础研究项目（20万元），2021-2023，主持
3. “基于拉锥光纤的微型光镊捕获系统研究”，广东省信息光子技术重点实验室开放项目（5万元），2021-2022， 主持
4. “基于可调节人工超表面的涡旋电磁波透镜研究”, 广州大学校内科研项目（100万元），2019-2023，主持

▍参与课题
1. “Optofluidic Nano-Cytometer For Virus Purification, Sorting And Quantification As An Assistive Toolkit For Virus Diagnosis”, 新加坡国家研究基金项目 （685万新加坡元，合人民币约3400万元），2015-2020，参与
2. “Optofluidic Fishnet Constructed By Optofluidic Force For Nanoparticle And Single Molecule Manipulation, Patterning And Sorting”, 新加坡教育部基金项目（30万新加坡元，合人民币约150万元），2014-2017，参与
3. “Optofluidic System For Bacterial Detection And Identification”, 新加坡国家研究基金项目 （180万新加坡元，合人民币约900万元），2012-2018，参与

▍主要论文
1. W. Zhang^*, B. Z. Zhang , K. J. Cheng, X. H. Fang, W. Q. Chen, Z. H. Wang, D. Hong and M. Zhang^*,“Microfluid-based soft metasurface for tunable optical activity in THz Wave”, Optics Express, 29(6): 8786, 2021
2. X. H. Fang^#*,W. Zhang^#, J. W. Li , C. L. Lin, Z. N. Chen, M. Zhang, S. H. Huang, D. K. Lu, M. G. Wan, X. Z. Qiu^*,“Signal processing assisted Vernier effect in a single interferometer for sensitivity magnification”, Optics Express (Accepted on 27 Feb 2021)
3. W. Zhang^*, Y. X. Lin, Y. S. Gao, Z. K. Guo, X. L. Li, Y. H. Hu, P. C. Dong, Q. F. Zhang, X. H. Fang and M. Zhang^*, “Numerical and Experimental Investigation on the Optical Manipulation from an Axicon Lensed Fiber”, Micromachines, 12, 187 (2021)
4. M.Zhang^*#,W. Zhang^*#, Z. H. Wang, W. Q. Chen, “Experimental Study on the Viscoelastic Flow Mixing in Microfluidics”, Bio-Integration, 1, 147 (2020)
5. C. Lan^*, S. J. Li, H. Chen, W. Zhang^*, H. Li, “Research on running state recognition method of hydro-turbine based on FOA-PN”, Measurement, 169, 108498 (2020)
6. Q. H. Song, P. C. Wu, W. M. Zhu, W. Zhang, Z. X. Shen, P. H. J. Chong, Q. X. Liang, D. P. Tsai, T. Bourouina, Y. Leprince-Wang, and A. Q. Liu, “Split Archimedean spiral metasurface for controllable GHz asymmetric transmission”, Applied Physics Letters, 114, 151105 (2019)
7. M. Zhang^#,W. Zhang^#, Z. W. Wu, Y. N. Shen , Yicheng Chen, Chaofeng Lan, Fengchen Li and Weihua Cai, “Comparison of Micro-Mixing in Time Pulsed Newtonian Fluid and Viscoelastic Fluid”, Micromachines,10, 262 (2019)
8. M. Zhang^#,W. Zhang^#, Z. W. Wu, Y. N. Shen, H. Y. Wu, J. P. Cheng, H. N. Zhang, F. C. Li, W. H. Cai, “Modulation of viscoelastic fluid response to external body force”, Scientific Reports 9, 9402 (2019)
9. C. F. Lan, M. Zhang, X. M. Sui, L. R. Fu and W. Zhang^*, “Study on noise control effect based on generalized Lorenz system”, Applied Acoustics, 145, 184-192 (2019)
10. M. Zhang, Y. F. Cui, W. H. Cai , Z. W. Wu, Y. Y. Li, F. C. Li and W. Zhang^*, “High Mixing Efficiency by Modulating Inlet Frequency of Viscoelastic Fluid in Simplified Pore Structure”, Processes, 6, 210 (2018)
11. L. Guan, Z. He, D. Z. Ding, Y. F. Yu, W. Zhang and R. S Chen^*, “Polarization-controlled shared-aperture metasurface for generating a vortex beam with different modes”, IEEE Transactions on Antennas and Propagation,66, 7455-7459 (2018)
12. W. Zhang, Q. H. Song, W. M. Zhu, Z. X. Shen, P. Chong, D. P. Tsai, C. W. Qiu and A. Q. Liu^*, “Metafluidic metamaterial: a review”, Advances in Physics: X, 3, ** (2018)
13. W. Zhang^*, M. Zhang, Z. K. Yan, X. Zhao, J. P. Cheng and Ai Qun Liu, “Single mode to dual mode switch through a THz reconfigurable metamaterial”, Applied Physics Letters, 111, 241106(2017)
14. Q. H. Song^#, W. Zhang^#, P. C. Wu, W. M. Zhu, Z. X. Shen, P. H. J. Chong, Q. X. Liang, Z. C. Yang, Y. L. Hao, H. Cai, H. F. Zhou, Y. D. Gu, G. Q. Lo, D. P. Tsai, T. Bourouina, Y. Leprince-Wang, and A. Q. Liu, "Water-Resonator-Based Metasurface: An Ultrabroadband and Near-Unity Absorption," Advanced Optical Materials, 5, ** (2017)
15. M. Zhang^#, W. Zhang^#, A. Q. Liu , F. C. Li*, C. F. Lan, “Tunable Polarization Conversion and Rotation based on a Reconfigurable Metasurface”, Scientific Reports, 7, 12068 (2017)
16. Q. H. Song, W. M. Zhu, P. C. Wu, W. Zhang, Q. Y. S. Wu, J. H. Teng, Z. X. Shen, P. H. J. Chong, Q. X. Liang, Z. C. Yang, D. P. Tsai, T. Bourouina, Y. Leprince-Wang and A. Q. Liu^*,"Liquid-metal-based metasurface for terahertz absorption material, frequency-agile and wide angle,"APL Materials,5, 066103 (2017)
17. W. M. Zhu, Q. H. Song, L. B. Yan, W. Zhang, P. C. Wu, L. K. Chin, H. Cai, D. P. Tsai, Z. X. Shen, T. W. Deng, S. K. Ting, Y. Gu, G. Q. Lo, D. L. Kwong, Z. C. Yang, R. Huang, A. Q. Liu^*, N. Zheludev^*, "A Flat Lens with Tunable Phase Gradient by Using Random Access Reconfigurable Metamaterial," Advanced Materials, 27, 4739 (2015)
18. W. Zhang, W. M. Zhu, E. E. M. Chia, Z. X. Shen, H. Cai, Y. D. Gu, W. Ser and A. Q. Liu, "A pseudo-planar metasurface for a polarization rotator," Optics Express, 22, 10446 (2014)
19. W. Zhang, W. M. Zhu, H. Cai, M. L. J. Tsai, G. Q. Lo, D. P. Tsai, H. Tanoto, J. H. Teng, X. H. Zhang, D. L. Kwong and A. Q. Liu^*, "Resonance switchable metamaterials using MEMS fabrications," IEEE Journal of Selected Topics in Quantum Electronics, 19, ** (2013)
20. W. Zhang, W. M. Zhu , E. P. Li , H. Tanoto , Q. Y. Wu , J. H. Teng , X. H. Zhang , J. M. Tsai , G. Q. Lo , D. L. Kwong and A. Q. Liu^*, "Micromachined Switchable Metamaterial with Dual Resonance,"Applied Physics Letters, 101, 151902 (2012)
21. W. M. Zhu, A. Q. Liu^*, W. Zhang, J. F. Tao, T. Bourouina, J. H. Teng, X. H. Zhang, Q. Y. Wu, H. Tanoto, H. C. Guo, G. Q. Lo and D. L. Kwong^*, "Polarization dependent state to polarization independent state change in THz metamaterials," Applied Physics Letters, 99, 221102 (2011)
22. W. Zhang, “Lateral Optical Force on Mie Particle via Two-dimensional Focused Beam”, The 9th International Multidisciplinary Conference on Optofluidics (IMCO 2019), Hong Kong
23. M. Zhang, W. Zhang, Z. W. Wu and W. H. Cai, “Instabilities of Pre-Stretched Viscoelastic Flow in Microfluidic Cross-Slot Devices”, 6th International Conference of Micro/Nanoscale Heat and Mass Transfer (MNHMT 2019), Dalian
24. Q. H. Song, W. M. Zhu, W. Zhang, M. Ren, E. M. Chia and A. Q. Liu, “Tunable THz filter based on random access metamaterial with liquid metal droplets”, 27th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2014), San Francisco.
25. W. M. Zhu, B. Dong, Q. H. Song, W. Zhang, R. F. Huang, S. K. Ting and A. Q. Liu, “Tunable meta-fluidic-materials base on multilayered microfluidic system”, 27th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2014), San Francisco.
26. W. Zhang, W. M. Zhu, H. Cai, P. Kropelnicki, A. B. Randles, M. Tang, H. Tanoto, Q. Y. Wu, J. H. Teng, X. H. Zhang, D. L. Kwong and A. Q. Liu, “A Tunable MEMS THz Waveplate Based on Isotropicity Dependent Metamaterial”, The 17th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers 2013), Barcelona.
27. W. Zhang, W. M. Zhu, J. M. Tsai, G. Q. Lo, D. L. Kwong, E. P. Li and A. Q. Liu, "THz Polarizer using Tunable Metamaterials", 26th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2013), Taipei.
28. W. M. Zhu, W. Zhang, R. F. Huang, S. K. Ting, G. Q. Lo, D. L. Kwong, and A. Q. Liu, "Metamaterial tunable filter with liquid metal", 26th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2013), Taipei.
29. W. Zhang, W. M. Zhu, Y. H. Fu, J. F. Tao, D. P. Tsai, G. Q. Lo,D. L. Kwong, A. Q. Liu, “A THz Dual Mode Switch Using MEMS Switchable Metamaterial”, 2011 IEEE 24th International Conference On Micro Electro Mechanical Systems (MEMS 2011), Cancun.
30. W. Zhang, J. F. TAO, W. M. Zhu, H. Cai and A. Q. Liu, “Tunable Optical Filter by Thermal Effect Based on MEMS Technology”, 5th International Conference on Materials for Advanced Technologies (ICMAT 2009), Singapore.
31. W. Zhang, J. F. TAO, W. M. Zhu, H. Cai and A. Q. Liu, “High Accuracy Pressure Sensor Based on Optical MEMS Technology”, 5th International Conference on Materials for Advanced Technologies (ICMAT 2009), Singapore.
32. W. M. Zhu, W. Zhang, H. Cai, J. Tamil, B. Liu, T. Bourouina and A. Q. Liu, “A MEMS Digital Mirror For Wavelength Selection Of Tunable Laser”, 15th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers 2009), Denver.
33. H. Cai, B. Liu, J. Tamil, W. M. Zhu, J. F. Tao, W. Zhang, Q. X. Zhang and A. Q. Liu, “Characteristics Of Micromachined Lasers For Injection Locking,” 15th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers 2009), Denver.
34. W. M. Zhu, X. M. Zhang, H. Cai, J. Tmail, W. Zhang, B. Liu, T. Bourouina and A. Q. Liu, “MEMS Laser with tunable wavelength and polarization using optical tunneling effect”, 22nd IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2009), Sorrento.
35. H. Cai, B. Liu, X. M. Zhang, W. M. Zhu, J. Tamil, W. Zhang, Q. X. Zhang and A. Q. Liu, “A micro machined thermo-optic tunable laser”, 22nd IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2009), Sorrento.

▍出版专著/教材
1. 许国玉、常艳艳、张梦、崔木子、张武、吕金丽、张勇、杨恩程和郭兴召， 《计算机绘图教材》（第4版），“十二五”普通高等教育本科国家级规划教材，哈尔滨工业大学出版社，2019年5月

▍专利授权
可调谐太赫兹波极化旋转的柔性超材料及其使用方法， 国家发明专利（已受理），第一发明人

▍社会服务
MDPI期刊长期审稿人