# 所在学科
**Source**: https://cst.bit.edu.cn/szdw/jsml/bssds/5db9df4f28d04cb5863ad6e8c8102d9c.htm
**Parent**: https://cst.bit.edu.cn/szdw/jsml/index.htm
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| | | **关鹏宇(Guan Pengyu)** 长聘教授,博士生导师,国家级青年人才 出生年月:1982年2月 电子邮件:pengu@bit.edu.cn 办公地点:中心教学楼743 |
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# **所在学科**
网络空间安全、信息与通信工程
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# **研究方向**
超高速光通信、时域透镜光傅立叶变换与信号处理及其应用
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# **个人简历**
2023/01-至今,北京理工大学,网络空间安全学院,长聘教授
2019/03-2023/01,丹麦科技大学(Technical University of Denmark),光子工程系(DTU Fotonik,现更名为DTU Electro),高级研究员/副教授(终身教职)
2017/03-2019/02,丹麦科技大学(Technical University of Denmark),光子工程系(DTU Fotonik),研究员/助理教授
2013/03-2017/02,丹麦科技大学(Technical University of Denmark),光子工程系(DTU Fotonik),博士后
2012/04-2013/01,日本东北大学(Tohoku University),电气通信研究所(RIEC),博士后
2009/04-2012/03,日本东北大学(Tohoku University),电气通信工程系,博士
2007/04-2009/03,日本东北大学(Tohoku University),电气通信工程系,硕士
2003/04-2007/03,日本立命馆大学(Ritsumeikan University),电子光信息工学,本科
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# **代表性论著**
按照时间由近及远列出
[1] X. Xu, P. Girouard, M. P. Yankov, M. Galili, L. K. Oxenløwe, and P. Guan\*, “PAM8 WDM Transmission based on a Single Time Lens Source with Geometric Shaping,” *Optical Fiber Communication Conference (OFC2023)*, paper W2B.22, March (2023)
[2] P. Girouard, X. Xu, M. Lillieholm, L. H. Frandsen, L. E. Gutt, M. Galili, L. K. Oxenløwe, and P. Guan\*, “Wavelength Conversion of a 36 Gb/s Net Rate PAM-4 Signal Using an a-Si Waveguide,” *Conference on Lasers and Electro-Optics* *(**CLEO2022)*, STh5M.4. May (2022).
[3] L. E. Gutt, P. Girouard, X. Xu, M. Galili, and P. Guan\*, ”Wavelength Conversion Based on Four-Wave Mixing and Coherency Broken Bragg Gratings,” in *Conference on Lasers and Electro-Optics* *(CLEO**2022)*, JTh3A.54**.**May (2022)
[4] M. Lillieholm, M. Galili, L. K. Oxenlowe, P. Guan\*, “64-Channel WDM Transmitter Based on Optical Fourier Transformation Using a Portable Time Lens Assembly,” *Optical Fiber Communication Conference* *(**OFC2022**)*, M2I.5. March (2022)
[5] X. Xu, D. Kong, P. D. Girouard, M. Lillieholm, L. K. Oxenløwe, and P. Guan\*, “28 Channel PAM8 WDM PON Transmission based on a Single Time-lens Source,” *Conference on Lasers and Electro-Optics (CLEO2021)*, paper STh1I.1. May (2021)
[6] X. Xu\*, D. Kong, P. D. Girouard, M. Lillieholm, L. K. Oxenløwe, and P. Guan\*, “28 Channel PAM4 WDM Transmitter based on a Single Time Lens Source,” in *Asia Communications and Photonics Conference/International Conference on Information Photonics and Optical Communications 2020 (ACP/IPOC)*, paper T2B.4, October (2020).
[7] P. Guan\*, S. Rodríguez, E. P. da Silva, F. Da Ros, M. Galili, M. Lillieholm, T. Morioka, and L. K. Oxenløwe, "Novel Hybrid Radio-over-Fiber Transmitter for Generation of Flexible Combination of WDM-ROF/WDM Channels," *Optical Fiber Communication Conference* *(**OFC2019**)*, W1I.6. March (2019)
[8] P. Guan\*, M. Lillieholm, M. Pu, Y. Zheng, F. Da Ros, D. Kong, M. Galili, T. Morioka, K. Yvind and L. K. Oxenløwe, “Simultaneous 256 WDM Channel Generation using a Single AlGaAsOI Waveguide based Time Lens Source,” *European Conference and Exhibition on Optical Communication (ECOC 2019),* M1A6, September (2019).
[9] P. Guan\*, E. P. Da Silva, S. Rodriguez, F. Da Ros, M. Galili, M. Lillieholm, T. Morioka, L. K. Oxenlowe, “Coherent WDM PON using a Single Time Lens Source and Kramers-Kronig Receiver,” *24th OptoElectronics and Communications Conference and 2019 International Conference on Photonics in Switching and Computing (OECC/PSC)*, WF2-4, July (2019)
[10] Pengyu Guan\*, Francesco Da Ros, Mads Lillieholm, Niels-Kristian Kjøller, Hao Hu, Kasper Meldgaard Røge, Michael Galili, Toshio Morioka, and Leif Katsuo Oxenløwe\*, “Scalable WDM phase regeneration in a single phase-sensitive amplifier through optical time lenses,” ***Nature Communications***, 9(1):1049, (2018).
[11] P. Guan\*, F. Da Ros, M. Lillieholm, K. Dalgaard, M. Galili, P. Jeppesen, T. Morioka, L. K. Oxenløwe, “Highly Flexible WDM PON System with a Single TDM Time Lens Source Enabling Record 150 km Downstream Reach” *Optical Fiber Communication Conference* *(**OFC2018**)**,* Th2A.54, March (2018)
[12] P. Guan\*, K. Røge, M. Lillieholm, M. Galili, H. Hu, T. Morioka and L. K. Oxenlowe, “Time Lens based Optical Fourier Transformation for All-Optical Signal Processing of Spectrally-Efficient Data,” ***J. Lightwave Technol****.*, vol. 35, no. 3, pp. 799-806, Invited, February (2017).
[13] P. Guan\*, F. Da Ros, N. K. Kjøller, H. Hu, K. M. Røge, M. Galili, T. Morioka, and L. K. Oxenløwe, “Regeneration of Phase Unlocked Serial Multiplexed DPSK Signals in a Single Phase Sensitive Amplifier” *Optical Fiber Communication Conference (OFC 2017)*, Top-scored, Th4I.5, March (2017).
[14] P. Guan\*, K. Røge, H.C. Hansen Mulvad, M. Galili, H. Hu, M. Lillieholm, T. Morioka and L. K. Oxenlowe, “All-Optical Ultra-High-Speed OFDM to Nyquist-WDM Conversion based on Complete Optical Fourier Transformation,” ***J. Lightwave Technol****.*, vol. 34, no. 2, pp. 626 – 632, Invited, January (2016)
[15] P. Guan\*, F. Da Ros, M. Lillieholm, H. Hu, K. M. Røge, M. Galili, T. Morioka and L. K. Oxenlowe, “16 Channel WDM Regeneration in a Single Phase-Sensitive Amplifier through Optical Fourier Transformation” *European Conference and Exhibition on Optical Communication (ECOC 201**6**),* Postdeadline Th.3.B.3, September (2016).
[16] P. Guan\*, K. M. Røge, T. Morioka and L. K. Oxenløwe, “Ultra-high-speed All-channel Serial-to-parallel Conversion based on Complete Optical Fourier Transformation” *Optical Fiber Communication Conference (OFC 201**6**)*, W3D.2, March (2016).
[17] P. Guan\*, K. Røge, H.C. Hansen Mulvad, M. Galili, H. Hu, T. Morioka, L. K. Oxenlowe, “All-Optical Ultra-High-Speed OFDM to Nyquist-WDM Conversion.” *Optical Fiber Communication Conference (OFC 2015)*, Top-scored W3C. 6, March (2015)
[18] P. Guan\*, K. M. Røge, H. C. Hansen Mulvad, H. Hu, T. Morioka, L. K. Oxenløwe, “Conversion of a DWDM Signal to a Single Nyquist Channel based on a Complete Optical Fourier Transformation.” *European Conference and Exhibition on Optical Communication (ECOC 2014),* We.2.5.5, September (2014).
[19] P. Guan\*, S. Lefrancois, M. Lillieholm , H. C. Hansen Mulvad, K. M. Røge, H. Hu, J. Schroeder, B. J. Eggleton, Z. Geng, A. J. Lowery, T. Morioka, L. K. Oxenløwe, “All-optical OFDM System using a Wavelength Selective Switch based Transmitter and a Spectral Magnification based Receiver.” *European Conference and Exhibition on Optical Communication (ECOC 2014),* Tu.3.6.2, September (2014).
[20] P. Guan\*, D. Kong, K. M. Røge, H. C. Hansen Mulvad, M. Galili, and L. K. Oxenløwe, “Real-Time All-Optical OFDM Transmission System Based on Time-Domain Optical Fourier Transformation.” *Optical Fiber Communication Conference (OFC 2014)*, W4F.1, March (2014).
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# **研究成果**
入选国家自然科学基金优秀青年科学基金项目(海外)。曾作为PI主持多个日本、丹麦的高竞争度科研项目,包括高影响力的VILLUM青年学者基金项目,总经费超过1500万人民币。回国前全职工作于丹麦科技大学,长期从事超高速光通信与光信号处理研究,包括时域透镜光傅立叶变换、非线性光学,光载无线通信和全光网络等。基于全光信号处理技术方面取得的突出贡献,2019年被丹麦科技大学授予终身教职高级研究员/副教授。相关成果发表在Nature Communications,Optics Express,IEEE PTL,IEEE JLT等国际权威期刊,光纤通讯展览会及研讨会(OFC)、欧洲光通信大会(ECOC)和激光及光电大会(CLEO),共计论文90余篇。作为第一发明人申报国际发明专利 4 项(已授权 3 项),获得2016年欧盟地平线奖Horizon Prize,表彰突破光传输壁垒(集体获奖)。被邀请在国际顶级会议OFC、CLEO和亚洲光纤通信会议(ACP)作特邀专题报告。受邀担任国际会议 OECC/PSC2019,PSC2020的技术委员会委员。
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# **承担项目**
1. Villum基金会VILLUM青年学者(VILLUM Young Investigator)项目编号19158,2018~2023,主持
2. 丹麦创新基金会创新探索者(InnoExplorer)项目编号9122-00091,2019~2020,主持
3. 丹麦独立研究基金博士后个人项目(Individual Postdoctoral grants)项目编号DFF–5054-00184,2016~2018,主持
4. 丹麦创新基金会重大项目(Grand Solutions)项目编号8057-00059B,2018~2021,主持子课题
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# **荣获奖项**
1. 国家自然科学基金优秀青年科学基金项目(海外)
2. 2018 VILLUM Young Investigator 2018,VILLUM青年学者
3. 2017 Optical Fiber Communication Conference (OFC 2017), Top-scored paper
4. 2016 Horizon Prize:Breaking the optical transmission barriers.欧盟地平线奖: 突破光传输壁垒(集体获奖)
5. 2015 Optical Fiber Communication Conference (OFC 2015), Top-scored paper
6. 2012 Presidential Prize for Excellence, Tohoku University,日本东北大学总长奖(毕业生最高荣誉)
7. 2011 Chinese Government Award for Outstanding Self-financed Students Abroad, 国家优秀自费留学生奖
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# **学术兼职**
OSA会员,IEEE会员;受邀担任Nature Communications,Optics Express,IEEE Journal of Lightwave Technology等多个国际顶级期刊的审稿人和国际会议的TPC Member
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# 招生与招聘
本团队长期招收博士研究生及博士后研究人员,研究方向包括光通信、光信号处理、微波光子学及相关安全技术。欢迎对上述方向感兴趣、具备相关背景的同学与青年学者邮件联系。