张方正研究生导师介绍
姓名张方正 性 别:  行政职务 :
专业技术职务副教授 办公电话 导师类别硕士生导师
最后学历博士毕业 最后学位博士 最后毕业学校北京邮电大学
电子邮件zhangfangzheng@nuaa.edu.cn  
工作单位电子信息工程学院    
学科研究方向一:
专业名称电磁场与微波技术 (招收硕士研究生)                                                                  学科代码11080904
微波光子学(微波光子雷达及其关键技术)
个人简历(学历、学术经历及社会兼职):

20086月获华中科技大学学士学位;20136月获北京邮电大学博士学位;20136月加入南京航空航天大学微波光子学实验室。其中,2009-2010年为新加坡南洋理工大学联合培养博士;2017-2018年为日本东京大学访问学者。担任IEEE-RWW 2017IEEE-RWW 2018IEEE-RWW 2019OPAL2018ICAIT2018等国际会议技术委员会成员,担任IEEE-ICOCN2015会议的本地组委会主席,在PIERS2018会议组织题为“Photonics-based Signal Source and its Application”Special Session



发表学术论文,出版专著情况:
已发表SCI期刊论文79篇(第一/通信作者论文48篇),在国际会议作特邀报告8次,获得IEEE组织的国际最佳会议论文奖2次。2017年至今(2018年10月)发表期刊论文情况如下(*为通讯作者):
[1] P. Zhou, F. Z. Zhang*, D. C. Zhang, and S. L. Pan, "Performance enhancement of an optically-injected-semiconductor-laser-based optoelectronic oscillator by subharmonic microwave modulation," Optics Letters, accepted.
[2] J. Z. Shi, F. Z. Zhang*, D. Ben, and S. L. Pan, "Photonics-based Broadband Microwave Instantaneous Frequency Measurement by Frequency-to-phase-slope Mapping," IEEE Transactions on Microwave Theory and Techniques, accepted.
[3] F. Z. Zhang, J. Z. Shi, D. Ben, and S. L. Pan, "Self-calibrating and high-sensitivity microwave phase noise analyzer applying optical frequency comb generator and optical-hybrid-based I/Q detector," Optics Letters, vol. 43, no. 20, pp. 5029-5032, Oct. 2018.
[4] J. Z. Shi, F. Z. Zhang*, D. Ben, and S. L. Pan, "Wideband Microwave Phase Noise Analyzer Based on an All-Optical Microwave I/Q Mixer," Journal of Lightwave Technology, vol. 36, no. 19, pp. 4319-4325, Oct. 2018.
[5] Z. Z. Tang, F. Z. Zhang*, and S. L. Pan, "60-GHz RoF System for Dispersion-Free Transmission of HD and Multi-Band 16QAM," IEEE Photonics Technology Letters, accepted
[6] P. Zhou, F. Z. Zhang*, and S. L. Pan, "Generation of Linear Frequency-Modulated Waveforms by a Frequency-Sweeping Optoelectronic Oscillator," Journal of Lightwave Technology, vol. 36, no. 18, pp. 3927-3934, Sep. 2018.
[7] J. Z. Shi, F. Z. Zhang*, and S. L. Pan, "Phase Noise Measurement of RF Signals by Photonic Time Delay and Digital Phase Demodulation," IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 9, pp. 4306-4315, Sep. 2018.
[8] J. B. Fu, F. Z. Zhang, D. Zhu, and S. L. Pan, “Fiber-distributed ultra-wideband radar network based on wavelength reusing transceivers,” Optics Express, vol. 26, no. 14, pp. 18457-118469, Jul. 2018.
[9] P. Zhou, F. Z. Zhang*, Q. S. Guo, and S. L. Pan, "A modulator-free photonic triangular pulse generator based on semiconductor lasers," IEEE Photonics Technology Letters, vol. 30, no. 14, pp. 1317-1320, Jul. 2018.
[10] Z. Z. Tang, F. Z. Zhang*, and S. L. Pan, "60-GHz RoF System for Dispersion-Free Transmission of HD and Multi-Band 16QAM," IEEE Photonics Technology Letters, vol. 30, no. 14, pp. 1305-1308, Jul. 2018.
[11] F. Z. Zhang, B. D. Gao, and S. L. Pan, "Photonics-based MIMO radar with high-resolution and fast detection capability," Optics Express, vol. 26, no. 13, pp. 17529-17540, Jun. 2018.
[12] D. C. Zhang, F. Z. Zhang*, and S. L. Pan, "Grating-lobe-suppressed optical phased array with optimized element distribution," Optics Communications, vol. 419, pp. 47-52, Jul. 2018.
[13] F. Z. Zhang, D. C. Zhang, and S. L. Pan, "Fast and wide-range optical beam steering with ultra-low side lobes applying optimized multi-circular optical phased array," Applied Optics, vol. 57, no. 20, pp. 4977-4984, Jun. 2018. (Editors' Pick)
[14] F. Z. Zhang, J. Z. Shi, and S. L. Pan, "Photonics-based wideband Doppler frequency shift measurement by in-phase and quadrature detection," Electronics Letters, vol. 54, no. 11, pp. 708-710, May, 2018.
[15] F. Z. Zhang, Q. S. Guo and S. L. Pan, “Photonics-based real-time ultra-high-range-resolution radar with broadband signal generation and processing,” Scientific Reports, vol. 7, 13848, 2017.
[16] F. Z. Zhang, Q. S. Guo, Y. Zhang, Y. Yao, P. Zhou, D. Zhu and S. L. Pan, “Photonics-based real-time and high-resolution ISAR imaging of non-cooperative target,” Chinese Optics Letters, vol. 15, no. 11, 112801, Nov. 2017. (Editors’ Picks of COL during Nov. 2016-Dec. 2017)
[17] P. Zhou, F. Z. Zhang*, Q. S. Guo, S. M. Li, and S. L. Pan, "Reconfigurable Radar Waveform Generation based on an Optically Injected Semiconductor Laser," Journal of Selected Topics in Quantum Electronics, vol. 23, no. 6, 1801109, Nov. 2017.
[18] F. Z. Zhang, J. Z. Shi and S. L. Pan, “Wideband microwave phase noise measurement based on photonic-assisted I/Q mixing and digital phase demodulation,” Optics Express, vol. 25, no. 19, pp. 22760-22768, Sep. 2017.
[19] F. Z. Zhang and S. L. Pan, “Photonics enables real-time imaging radar with ultra-high resolution”, SPIE Newsroom. DOI: 10.1117/2.2201708.05, Aug. 2017.
[20] F. Z. Zhang, Q. S. Guo, Z. Q. Wang, P. Zhou, G. Q. Zhang, J. Sun, and S. L. Pan, "Photonics-based broadband radar for high-resolution and real-time inverse synthetic aperture imaging," Optics Express, vol. 25, no. 14, pp. 16274-16281, Jul. 2017.
[21] Q. S. Guo, F. Z. Zhang*, P. Zhou, and S. L. Pan, "Dual-band LFM signal generation by frequency quadrupling and polarization multiplexing," IEEE Photonics Technology Letters, vol. 29, no. 16, pp. 1320-1323, Aug. 2017.
[22] Y. M. Zhang, X. W. Ye, Q. S. Guo, F. Z. Zhang, and S. L. Pan, "Photonic Generation of Linear-Frequency-Modulated Waveforms With Improved Time-Bandwidth Product Based on Polarization Modulation," Journal of Lightwave Technology, vol. 35, no. 10, pp. 1821-1829, May 2017.
[23] B. D. Gao, F. Z. Zhang*, P. Zhou and S. L. Pan, "A Frequency-tunable Two-tone Radio Frequency Signal Generator by Polarization Multiplexed Optoelectronic Oscillator," IEEE Microwave and Wireless Components Letters, vol. 27, no. 2, pp. 192-194, Feb. 2017..
[24] Y. M. Zhang, F. Z. Zhang, and S. L. Pan, "Frequency-Multiplied Phase-Coded Signal Generator Based on Optical Polarization Division Multiplexing Mach-Zehnder Modulator," IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 2, pp. 651-660, Feb. 2017.
[25] B. D. Gao, F. Z. Zhang*, and S. L. Pan, "Experimental Demonstration of Arbitrary Waveform Generation by a 4-bit Photonic Digital-to-analog Converter", Optics Communications, vol. 383, pp. 191-196, 2017.


科研成果获奖及专利:
[1] 张方正,魏娟,潘时龙,“射频信号稳相传输方法及系统”,中国发明专利,已授权,专利号:ZL201410026364.7
[2] 张方正,魏娟,潘时龙,薛敏,宋希希“一种射频信号光纤稳相传输方法及系统”中国发明专利,已授权,专利号:ZL201310728277.1
[3] 张方正,朱登建,潘时龙,周沛,“基于微波光子混频技术的微波源相位噪声测试方法及装置”中国已授权,专利号:ZL201410796588.6
[4] 张方正,戈小忠,潘时龙,“一种差分相位编码的微波信号产生方法及装置”中国发明专利,已授权,专利号:ZL201510005559.8
[5] 张方正,高斌栋,潘时龙,“基于光时域压缩的超高速数模转换方法及装置”,中国发明专利,申请号:201611223440.9.
[6] 张方正,史经展,潘时龙,“基于射频对消的相位噪声测量方法、装置 ”,中国发明专利,申请号:201610723141.5
[7] 张方正,周沛,潘时龙,郭清水,“一种线性调频微波信号生成方法及装置 ”,中国发明专利,申请号:201610133943.0
[8] 张方正,朱登建,潘时龙,叶星炜,周沛,“一种基于微波光子技术的微波源相位噪声测量装置及方法”,中国发明专利,申请号:201510155638.7
[9] 张方正,周沛,潘时龙,郭清水,“一种微波频率梳生成方法、装置”,中国发明专利,申请号:201710043504.5
[10] 张方正,张道成,潘时龙,“一种二维光学相控阵”,中国发明专利,申请号:201710546693.8.
[11] 张方正,史经展,潘时龙,“基于级联相位和偏振调制器的微波光子正交混频方法、装置”,中国发明专利,申请号:201710950881.7.
[12] 张方正,高彬栋,潘时龙,赵二毛,“微波光子MIMO雷达探测方法及微波光子MIMO雷达系统”,中国发明专利,申请号:201810021487.X
[13] 张方正,叶星炜,杨悦,潘时龙,赵昂然,聂海江,“微波光子全极化雷达探测方法及微波光子全极化雷达”,中国发明专利,申请号:201810304768.6,申请日期:2018.04.08
[14] 张方正,郭清水,潘时龙,周沛,赵二毛,“微波光子双波段雷达探测方法及微波光子双波段雷达“,中国发明专利,申请号:201810478087.1,申请日期:2018.05.18
[15] 张方正,郭清水,潘时龙,赵二毛,周沛,“微波光子全波段雷达探测方法及微波光子全波段雷达“,中国发明专利,申请号: 201810548911.6,申请日期:2018.05.31
[16] 张方正,郭清水,潘时龙,“基于微波光子倍频与正交解调的雷达探测方法、装置”,中国发明专利,申请号:201810596602.6,申请日期:2018.06.11
[17] 张方正,史经展,张道成,潘时龙,“基于微波光子倍频与混频的频谱实时监测方法及装置”,中国发明专利,申请号:201810669937.6,申请日期:2018.06.26
[18] 张方正,史经展,张道成,潘时龙,“基于频率—相位斜率映射的微波频率测量方法及装置”,中国发明专利,申请号:201810951855.0,申请日期:2018.08.21

承担的科研项目情况:
主持国家自然科学基金、江苏省自然科学基金等各类科研项目十余项。
指导研究生情况:

[1] 指导硕士生获得国家奖学金情况:戈小忠(2015)、朱登建(2015)、郭清水(2017)、张道成(2018)
[2] 指导博士生获得国家奖学金情况:周沛 (2017)
备注:

欢迎同学们进入光电子的世界,本人保证所带的研究生毕业前成果多多,就业前景良好!