个人资料
院部/部门：光电科学与工程学院
联系电话：
性别：男
电子邮箱：peizhou@suda.edu.cn
专业技术职务：
办公地址：（本部）激光楼412室
毕业院校：南京航空航天大学
通讯地址：苏州市十梓街1号
学位：工学博士
邮编：
学历：
传真：


教育经历
教育经历：2009.09-2013.06, 电子信息科学与技术专业, 南京航空航天大学, 理学学士
2013.09-2019.06, 通信与信息系统专业, 南京航空航天大学, 工学博士, 导师：潘时龙教授
2017.09-2018.09, 电子工程系, 加州大学洛杉矶分校（UCLA）, 联合培养, 合作导师：Jia-Ming Liu 教授



工作经历
工作经历：2019.07-至今, 苏州大学 光电工程与科学学院, 讲师（校优秀青年****）




个人简历
个人简介：
周沛，男，硕士生导师。分别于2013年6月和2019年6月在南京航空航天大学获得学士与博士学位，其中2017-2018年为美国加州大学洛杉矶分校联合培养博士；2019年7月加入苏州大学光电科学与工程学院，入选校优秀青年****。
主要从事微波光子学、激光混沌和激光器非线性动力学相关研究。主攻基于微波光子技术的高质量微波/毫米波信号产生（单频本振信号、混沌信号、多频本振信号、光脉冲信号、三角波信号、线性调频信号、跳频/频率编码信号等）和应用(频率变换、雷达成像等)研究。
已发表学术论文40余篇，其中在Opt. Lett.，Opt. Express，IEEE J. Sel. Top. Quantum Electron，IEEE/OSA J. Lightwave Tech.等本领域主流SCI期刊发表论文20余篇，其中1篇论文入选ESI前1%高被引论文，累计被引用超过550次；申请/授权发明专利9项。
IEEE会员，OSA会员；担任IEEE Journal of Selected Topics in Quantum Electronics，IEEE Journal of Quantum Electronics，IEEE Photonics Journal，Optics Express，Optics Communications，Optical Engineering，Chinese Optics Letters等SCI期刊审稿人；担任国际光学工程学会（SPIE）南京航空航天大学学生分会主席（2016.05-2017.05）。
作为项目负责人主持科研项目6项，包括国家/省青年基金各1项，省高校面上项目1项，重点实验室开放课题3项；先后获得南京航空航天大学校优秀博士论文、国际光学工程学会（SPIE）光学与光子学教育奖学金、南京航空航天大学“创新奖”、国际光通信与光网络会议最佳学生论文、工信创新奖学金、博士研究生国家奖学金、国家留学基金委“联合培养博士研究生奖学金”等多项荣誉/奖励。


学术成果
【期刊论文】
[J29] J. C. Wu, Z. Song, Y. F. Xie, X. Y. Zhou, P. Zhou*, P. H. Mu, and N. Q. Li*, High quality random number sequence extracted from chaos post-processed by the phased-array semiconductor lasers, Acta Physica Sinica, accepted.
[J28] P. Zhou, R. H. Zhang (co-first author), K. X. Li, Z. D. Jiang, P. H. Mu, H. L. Bao, and N. Q. Li, Generation of NLFM microwave waveforms based on controlled period-one dynamics of semiconductor lasers, Optics Express, vol. 28, no. 22, pp.32647-32656, Oct. 2020.
[J27] H. Chen, P. Zhou, L. M. Zhang, B. Snesi, B. Nakarmi, and S. L. Pan, Reconfigurable Identical and Complementary Chirp Dual-LFM Signal Generation Subjected to Dual-beam Injection in a DFB Laser, IEEE/OSA Journal of Lightwave Technology, vol. 38, no. 19, pp.5500-5508, Oct. 2020.
[J26] P. Jiang, P. Zhou(co-first author), N. Q. Li, P. H. Mu, and X. F. Li, Optically injected nanolasers for time-delay signature suppression and communications, Optics Express, vol. 28, no. 18, pp.26421-26435, Aug. 2020.
[J25] P. Zhou, H. Chen, N. Q. Li, R. H. Zhang, and S. L. Pan, Photonic generation of tunable dual-chirp microwave waveforms using a dual-beam optically injected semiconductor laser,Optics Letters, vol. 45, no. 6, pp. 1342-1345, Mar. 2020.
[J24] R. H. Zhang, P. Zhou, Y. G. Yang, Q. Fang, P. H. Mu, and N. Q. Li, Enhancing time-delay suppression in a semiconductor laser with chaotic optical injection via parameter mismatch, Optics Express, vol. 28, no. 5, pp. 7107-7206, Mar. 2020.
[J23] P. Zhou, Q. Fang, and N. Q. Li, Phased-array assisted time-delay signature suppression in the optical chaos generated by an external-cavity semiconductor laser,Optics Letters, vol. 45, no. 2, pp. 399-402, Jan. 2020.
[J22] P. Zhou, N. Q. Li, and S. L. Pan, Photonic microwave harmonic down-converter based on stabilized period-one nonlinear dynamics of semiconductor lasers,Optics Letters, vol. 44, no. 19, pp. 4869-4872, Oct. 2019.
[J21] F. Z. Zhang, P. Zhou, S. L. Pan, and D. C. Zhang, Terahertz generation by optically injected semiconductor laser for radar and communication applications, The Journal of Engineering, vol. 2019, no. 20, pp. 7193 – 7195. Oct. 2019.
[J20] B. W. Zhang, D. Zhu, P. Zhou, C. X. Xie, and S. L. Pan, Tunable triangular frequency modulated microwave waveform generation withimproved linearity using an optically injected semiconductor laser, Applied Optics, vol. 58, no. 20, pp. 5479-5485, Jul. 2019.
[J19] 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, vol. 43, no. 21, pp. 5439-5442, Nov. 2018.
[J18] P. Zhou, F. Z. Zhang, and S. L. Pan, Generation of linear frequency-modulated waveforms by a frequency-sweeping optoelectronic oscillator, IEEE/OSA Journal of Lightwave Technology, vol. 36, no. 17, pp. 3726-3732, Sep. 2018.
[J17] 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.
[J16] 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, IEEEJournal of Selected Topics in Quantum Electronics, vol. 23, no. 6, **, Nov. 2017.
[J15] 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.
[J14] 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 Microwaveand Wireless Components Letters, vol. 27, no. 2, pp. 192-194, Feb. 2017.
[J13] 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.
[J12] F. Z. Zhang, Q. S. Guo, Y. Zhang, Y. Yao, P. Zhou, D. Y. 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.
[J11] P. Zhou, F. Z. Zhang, X. W. Ye, Q. S. Guo, and S. L. Pan, Flexible frequency-hopping microwave generation by dynamic control of optically injected semiconductor laser, IEEE Photonics Journal, vol. 8, no. 6, article no. **, Dec. 2016.
[J10] P. Zhou, F. Z. Zhang, B. D. Gao, and S. L. Pan, Optical pulse generation by an optoelectronic oscillator with opticallyinjected semiconductor laser, IEEE Photonics Technology Letters, vol. 28, no. 17, pp. 1827-1830, Sep. 2016.
[J9] P. Zhou, F. Z. Zhang, Q. S. Guo, and S. L. Pan, Linearly chirped microwave waveform generation with largetime-bandwidth product by opticallyinjected semiconductor laser, Optics Express, vol. 24, no. 15, pp. 18460-18467, Aug. 2016.
[J8] F. Z. Zhang, B. D. Gao, P. Zhou, and S. L. Pan, Triangular pulse generation by polarization multiplexed optoelectronic oscillator, IEEE Photonics Technology Letters, vol. 28, no. 15, pp. 1645-1648, Aug. 2016.
[J7] S. L. Pan, P. Zhou, Z. Z. Tang, Y. M. Zhang, F. Z. Zhang and D. Zhu, Optoelectronic oscillator based on polarization modulation, Fiber and Integrated Optics, vol. 34, no. 4, pp.211-229, Oct. 2015. [Invited Paper]
[J6] D. J. Zhu, F. Z. Zhang, P. Zhouand S. L. Pan, Phase noise measurement of wideband microwave sources based on a microwave photonic frequency down-converter, Optics Letters, vol. 40, no. 7, pp. 1326-1329, Apr. 2015.
[J5] D. J. Zhu, F. Z. Zhang, P. Zhou, D. Zhu, and S. L. Pan, Wideband phase noise measurement using a multifunctional microwave photonic processor, IEEE Photonics Technology Letters, vol.26, no.24, pp.2434-2437, Dec. 2014.
[J4] P. Zhou, S. L. Pan, D. Zhu, R. H. Guo, F. Z. Zhang, and Y. J. Zhao, A compact optoelectronic oscillator based on an electro-absorption modulated laser, IEEE Photonics Technology Letters, vol. 26, no. 1, pp. 86-88, Jan. 2014.
[J3] P. Zhou, Z. Z. Tang, S. L. Pan, D. Zhu and D. Ben, Photonic microwave up-conversion using an optoelectronic oscillator based on polarization modulator, Electronics Letters, vol. 48, no. 5, pp. 271-272, Mar. 2012.
[J2] S. H. Cai, S. L. Pan, D. Zhu, Z. Z. Tang, P. Zhouand X. F. Chen, Coupled frequency-doubling optoelectronic oscillator based on polarization modulation and polarization multiplexing, Optics Communications, vol. 285, no. 6, pp. 1140-1143, Mar. 2012.
[J1] 唐震宙，潘时龙，周沛，朱丹，郭荣辉，贲德. 基于光电振荡器的宽带射频下转换及在高清视频传输的应用.光子学报, 卷号41, 期号10, 1161-1166, 2012.

【会议论文】

[C14] P. Zhou, R. H. Zhang, Z. D. Jiang, N. Q. Li and S. L. Pan, Demonstration of a RF-Source-Free Microwave Photonic Radar Based on an Optically Injected Semiconductor Laser, 2020 Optical Fiber Communication Conference (OFC 2021), Jun. 6-10, 2021, San Francisco, CA, USA.
[C13] Y. G. Yang, P. Zhou, and N. Q. Li, Optically pumped spin VCSELs for reservoir computing, Conference on Lasers and Electro-Optics (CLEO2021), May 9-14, 2021, San Jose, CA, USA.
[C12] Y. Huang, P. Zhou, and N. Q. Li, Chaos synchronization in Optically pumped quantum-dot spin-VCSELs, SPIE proceedings of NDTA 2020 symposium.
[C11] R. H. Zhang,P. Zhou*, K. X. Li, Z. D. Jiang, H. L. Bao,and N. Q. Li*, NLFM microwave waveform generation by optically injected semiconductor laser for radar applications, Asia Communications and Photonics Conference (ACP2020), Oct. 24-27, 2020, Beijing, China.
[C10] P. Zhou, H. Chen, N. Q. Li, R. H. Zhang, and S. L. Pan, Dual-chirp microwave waveform generation by a dual-beam optically injected semiconductor laser, 2020 Optical Fiber Communication Conference (OFC 2020), Mar. 8-12, 2020, San Diego, CA, USA.
[C9] N. Q. Li, and P. Zhou, Ultrafast period-one oscillation in spin-VCSELs, Asia Communications and Photonics Conference (ACPC) 2019, Nov. 2-5, 2019, Chengdu, Sichuan, China.
[C8] P. Zhou, F. Z. Zhang, Q. S. Guo, and S. L. Pan, Linear frequency modulated waveform generation based on a tunable optoelectronic oscillator, in 2017 International Topical Meeting on Microwave Photonics (MWP 2017), Oct. 23-26, 2017, Beijing, China.
[C7] Q. S. Guo, F. Z. Zhang, Z. Wang, P. Zhou, and S. L. Pan, High-resolution and real-time inverse synthetic aperture imaging based on a broadband microwave photonic radar in 2017 International Topical Meeting on Microwave Photonics (MWP 2017), Oct.23-26, 2017, Beijing, China.
[C6] P. Zhou, F. Z. Zhang, Q. S. Guo, and S. L. Pan, A simple method for photonic generation of linearly chirped microwave waveforms with ultra-large time-bandwidth product, in the Avionics and Vehicle Fiber-Optics and Photonic Conference and the International Topical Meeting on Microwave Photonics 2016 (AVFOP&MWP 2016), Oct. 31-Nov. 3, 2016, Long Beach, California, USA.
[C5] P. Zhou, F. Z. Zhang, Q. S. Guo, Y. Yao, and S. L. Pan, Agile frequency-hopping microwave waveform generation by a semiconductor laser subject to optical injection, The 25th Wireless and Optical Communication Conference (WOCC2016), Chengdu, China,21-23, May 2016.
[C4] B. D. Gao, F. Z. Zhang, P. Zhou, and S. L. Pan, Frequency tunable two-tone signal generation based on polarization multiplexed optoelectronic oscillator, International Microwave Symposium (IMS 2016), 22-27 May, 2016, San Francisco, California, USA.
[C3] P. Zhou, F. Z. Zhang and S. L. Pan, A tunable multi-frequency optoelectronic oscillator based on stimulated Brillouin scattering, The 14th International Conference on Optical Communications and Networks (ICOCN2015), Nanjing, China,Jul. 4-5, 2015.[Best Student Paper Award]
[C2] P. Zhou, F. Z. Zhang and S. L. Pan, A multi-frequency optoelectronic oscillator based on a single phase-modulator, Conference on Lasers and Electro-Optics (CLEO2015), May 10-15, 2015, San Jose, CA, USA.
[C1] X. Z. Ge, F. Z. Zhang,P. Zhou, and S. L. Pan, Flat optical frequency comb generation using a single polarization modulator and a Mach-Zehnder interferometer, The 20th Optoelectronics and Communications Conference (OECC 2015), Shanghai, China, Jun 28th-July 2nd, 2015.


【专利】
[P9]周沛，李坤曦，李念强，杨闯，傅剑斌，刘世锋, “一种基于双光注入半导体激光器的微波频率梳产生装置”, 中国发明专利, 申请号：0.2, 申请日期：**.
[P8] 李念强，张仁恒，周沛, “一种基于激光器相控阵列的线性啁啾微波信号产生装置”, 中国发明专利, 申请号：2.0, 申请日期：**.
[P7] 周沛，周志华，李念强，张仁恒，韦孟杰，宋峥，谢溢锋, “一种基于光注入半导体激光器的光电量化装置及其方法”, 中国发明专利, 申请号：5.3, 申请日期：**.
[P6] 周沛，张仁恒，李念强，包华龙, “基于半导体激光器单周期振荡的波形产生装置及方法”, 中国发明专利, 申请号：4.8, 申请日期：**.
[P5] 周沛，李念强，陈浩，张仁恒, “一种基于半导体激光器的双啁啾微波信号产生装置及方法”, 中国发明专利, 申请号：9.0,申请日期：**.
[P4] 周沛，张仁恒，李念强，包华龙, “基于半导体激光器单周期振荡的波形产生装置”, 实用新型专利, 已授权，授权日期：**.
[P3] 周志华，周沛，李念强，张仁恒，韦孟杰，宋峥，谢溢锋, “一种基于光注入半导体激光器的光电量化装置”, 实用新型专利, 已授权，授权日期：**.
[P2] 张方正，郭清水，潘时龙，周沛，赵二毛，“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，授权号: ZL7.1，授权日期：**.
[P1] 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”，中国发明专利，授权号: ZL8.6，授权日期：**.




研究领域
研究方向：（1）微波光子技术
（2）激光器非线性动力学
（3）混沌激光产生及应用





开授课程
开授课程：



科研项目
科研项目：1、苏州大学学术启动经费, 2019/09-2021/12, 主持
2、江苏省高等学校自然科学研究面上项目,2020/07-2022/06, 主持
3、江苏省自然科学基金青年基金,2020/07-2023/06, 主持
4、国家自然科学基金青年基金, 2021/01-2023/12, 主持
5、国家自然科学基金面上项目, 2021/01-2024/12, 参与
6、江苏省高等学校自然科学研究重大项目,2020/07-2023/06, 参与




论文
论文：1、见"个人概况”标签页。




科技成果
软件著作 专利 专利：1、见"个人概况”标签页。




荣誉及奖励
荣誉及奖励：1、南京航空航天大学校优秀博士论文,2020
2、校优秀青年****,2019
3、工信创新奖学金,2018
4、博士研究生国家奖学金,2017
5、南京航空航天大学第四届创新奖,2017
6、SPIE Optics and Photonics Education Scholarship,2017
7、国家留学基金委“联合培养博士研究生奖学金”,2017
8、SPIE Officer Travel Grant,2016
9、第十四届国际光通信和光网络国际会议（ICOCN2015）最佳学生论文奖,2015
10、第六届复旦大学博士生论坛优秀论文二等奖,2014
11、江苏省普通高校本专科优秀毕业设计（论文）一等奖,2014
12、南京航空航天大学毕业生大学成就奖,2013
13、南京航空航天大学校长特别嘉奖,2012




招生信息
招生信息：1、招收光学工程（或电子信息）专业硕士研究生（学硕/专硕均可）。
2、 欢迎具有电子/光学/通信学习背景的同学报考本人的研究生。
3、当前指导硕士生三名，高年级本科生四名；指导一项国家级大学生创新训练计划项目。






科研成果（旧版）





学位：工学博士
毕业院校：南京航空航天大学
电子邮箱：peizhou@suda.edu.cn
办公地址：（本部）激光楼412室
联系电话：








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