付红岩

Ph.D. Electrical Engineering, The Hong Kong Polytechnic University

M.Sc. Electrical Engineering, Royal Institute of Technology (KTH), Sweden

B. Eng. Information and Electronic Engineering, Zhejiang University

2021-present, Tenured-Associate Professor, Tsinghua Shenzhen International Graduate School, Tsinghua University

2017-2021, Associate Professor, Tsinghua-Berkeley Shenzhen Institute, Tsinghua University

2016-2017, Project Officer, Central Research Institute, Huawei Technologies

2012-2016, Project Manager, Central Research Institute, Huawei Technologies

2010-2012, Senior Research Engineer, Central Research Institute, Huawei Technologies

2009-2010, Research Associate, Photonic Research Centre, The Hong Kong Polytechnic University

2008-2009, Research Assistant, Photonic Research Centre, The Hong Kong Polytechnic University

Senior & Life Member of Optica

Senior Member of Institute of Electrical and Electronics Engineers (IEEE)

Life Member of Society of Photo-Optical Instrumentation Engineers (SPIE)

Committee Member of IEEE Photonics Society (IPS) Guangdong Chapter

Council Member of Shenzhen Society of Micro-Nano Technology

Founding Advisor of Optica, IEEE, and SPIE Student Chapters at Tsinghua SIGS

Integrated Photonics and Their Applications for Communications and Sensing, including Optical Wireless Communications, LiDAR, Silicon Photonics, Ultra-fast Optics, etc.

Postdeadline Paper, Best Student Paper Award, Best Poster Award, ACP 2021

Best Student Paper Awards, OECC 2021

Best Student Paper Award, ACP 2020

Best Poster Award, ACP 2019

The President Commendation (Best Innovation Team), CRI, Huawei, 2015

The President Commendation (Outstanding Research Contribution), CRI, Huawei, 2014

The President Commendation (Best Innovation Team), CRI, Huawei, 2014

Book Chapters:

[B1] Chun-Liu Zhao, Xinyong Dong, H. Y. Fu, and H. Y. Tam, “Photonic crystal fiber loop mirrors and their applications,” in Recent Progress in Optical Fiber Research, ISBN: 978-953-307-823-6, InTech, (2012).

[B2] Qian Li, Xuanyi Liu, Renlai Zhou, M. S. Aruna Gandhi and H. Y. Fu, “Recent Advances and Perspects of Pulsed Fiber Lasers,” in Optical Fiber Technology and Applications_Recent Advances, IOP Publishing, (2021).

[B3] Amjad Ali, Qian Li, H. Y. Fu and Syed Raza Mehdi, “Blue Laser Diode-Based Visible Light Communication and Solid-State Lighting,” in Antenna Systems, IntechOpen, (2021).

Invited Talks:

[I1] H. Y. Fu “VCSELs for Optical Wireless Communications”, The Asia Communications and Photonics Conference (ACP2022), Shenzhen, China, Nov. 5th -8th, 2022.

[I2] H. Y. Fu, “Optical Wireless Communications for 6G High-speed Transmission”, The 19th International Conference on Optical Communications & Networks (ICOCN), Qufu, China, Aug. 23th -27th, 2021.

[I3] H. Y. Fu, “Towards 6G Optical Wireless Communications”, The 4th International Conference on Communication Engineering and Technology (ICCET’2020), Shanghai, China, Feb. 2021.

[I4] H. Y. Fu and Zixian Wei “Optical Wireless Communication Technologies for 6G”, The 12th International Conference on Advanced Infocomm Technology (ICAIT), A003-3, Macau, Nov. 12th -15th, 2020.

[I5] H. Y. Fu, “Key Technologies for Optical Wireless Communications for 6G”, The Asia Communications and Photonics Conference (ACP’2020), M2F.4, Beijing, China, Nov. 2020.

[I6] H. Y. Fu, “Recent Advances on Optical Wireless Communication Technologies for 6G,” The 2020 Optoelectronics Global Conference (OGC), Shenzhen, China, Sep. 7th -11th, 2020

[I7] H. Y. Fu, Zixian Wei, Simei Mao, Xin Mu and Alberto Pepe “VCSEL-based Optical Wireless Communications”, The 11th International Conference on Advanced Infocomm Technology (ICAIT), Session on Optical Communications, Jinan, China, Oct. 18th -20th, 2019.

[I8] H. Y. Fu, and Zixian Wei “Recent Progress on Optical Wireless Communications”, The 12th International Nano-Optoelectronics Workshop (iNOW), Guangzhou/Dongguan/Shenzhen, China, Jul. 21st -28th, 2019

[I9] H. Y. Fu, “Silicon Photonic Switches for Data Communications”, The 11th International Nano-Optoelectronics Workshop (iNOW), Tianjin, Aug. 4th -12th, 2017.

[I10] H. Y. Fu, “Silicon Photonic Switches and Their Applications for Data Center”, The 15th International Conference on Optical Communications & Networks (ICOCN), Hangzhou, Sep. 24th -27th, 2016.

[I11] H. Y. Fu, “Next Generation Optical Networking and Driving Beyond 100G, an Optical Internetworking forum (OIF) perspective”, WDM & Next Generation Optical Networking APAC, Singapore, Jan. 29th -31st, 2013.

Selected Journal Papers:

[J1] H. Y. Fu* and Qian Li*, “Light arrays measure up on a chip the size of a fingertip,” Nature 603(7900), pp. 232-233, 2022.

[J2] Zixian Wei, Lei Wang, Zhongxu Liu, Chao Zhang, Chien-Ju Chen, Meng-Chyi Wu, Yanfu Yang, Changyuan Yu, Lai Wang*, and H. Y. Fu*, “Multigigabit Visible Light Communication Based on High-Bandwidth InGaN Quantum Dot Green Micro-LED”, ACS Photonics, vol. 9, no. 7, pp. 2354-2366, 2022/07/20, 2022.

[J3] Zixian Wei, Zhaoming Wang, Jianan Zhang, Qian Li, Junping Zhang* and H. Y. Fu*, “Evolution of Optical Wireless Communication for B5G/6G,” Progress in Quantum Electronics, p.100398, 2022.

[J4] Wanqing Cai, Muhammad Umair Ali, Ping Liu, Miao He, Cong Zhao, Ziming Chen, Yue Zang, Man-Chung Tang, Hong Meng, Hongyan Fu*, Guodan Wei*, and Hin-Lap Yip*, “Unravelling Alkali-Metal-Assisted Domain Distribution of Quasi-2D Perovskites for Cascade Energy Transfer towards Efficient Blue Light-Emitting Diodes,” Advanced Science, pp. 2200393, 2022.

[J5] Yang Luo, Xiao Xiao, Jun Chen, Qian Li, H. Y. Fu*, “Machine-Learning-Assisted Recognition on Bioinspired Soft Sensor Arrays”, ACS Nano, Vol.16, No.4, pp.6734–6743, 2022.

[J6] Simei Mao, Lirong Cheng, Houyu Chen, Xuanyi Liu, Zihan Geng, Qian Li and Hongyan Fu*, Multi-task topology optimization of photonic devices in low-dimensional Fourier domain via deep learning Nanophotonics, 2022. (Early Access Available)

[J7] Zhaoming Wang, Zixian Wei, Yuting Cai, Lei Wang, Mutong Li, Siwei Zhang, Rong-Jun Xie, Lai Wang, Guodan Wei * and H. Y. Fu*, “Microencapsulation-Enabled Air-stable Perovskite-PMMA Films Combining a Micro-LED for High-speed Visible White Light Communication,” ACS Applied Materials & Interfaces, Vol.13, pp. 54143-54151, 2021.

[J8] Yang Luo, Zihan Wang, Jiyu Wang Xiao Xiao, Qian Li, Wenbo Ding* and H. Y. Fu*, “Triboelectric Bending Sensor based Smart Glove towards Intuitive Multi-Dimensional Human-Machine Interfaces,” Nano Energy, Vol. 89, p.106330, 2021. (Front Cover Paper)

[J9] Ping Liu, Wanqing Cai, Cong Zhao, Siwei Zhang, Pengbo Nie, Wenzhan Xu, Hong Meng, Hongyan Fu, and Guodan Wei, “Quasi-2d Cspbbrxi3−X Composite Thin Films for Efficient and Stable Red Perovskite Light-Emitting Diodes.” Advanced Optical Materials, vol. 9, no. 24, p. 2101419, 2021.

[J10] Jiaye Wu, Ze Tao Xie, Yanhua Sha, H. Y. Fu, and Qian Li*, “Epsilon-near-zero photonics: infinite potentials,” Photonics Research, Vol. 9, No.8, pp. 1616-1644, 2021.

[J11] Lei Wang, Zixian Wei, Chien-Ju Chen, Lai Wang*, H. Y. Fu*, Li Zhang, Kai-Chia Chen, Meng-Chyi Wu*, Yuhan Dong, Zhibiao Hao, and Yi Luo, “1.3 GHz E-O bandwidth GaN-based micro-LED for multi-gigabit visible light communication,” Photonics Research, Vol. 9, No. 5, pp.792-802, 2021. (Editor’s Award, one of the two papers awarded in 2021)

[J12] Zixian Wei, Mutong Li, Zhongxu Liu, Zhaoming Wang, Chao Zhang, Yanfu Yang, Changyuan Yu and H. Y. Fu*, “Parallel Mini/Micro-LEDs Transmitter: Size-dependent Effect and Gbps Multi-user Visible Light Communication,” IEEE Journal of Lightwave Technology, 40(8), pp.2329-2340, 2022.

[J13] Zhenmin Chen, Xin Tu, Maolin Dai, Qian Li, and H. Y. Fu*, “Frequency Comb Generation in Microsphere Resonators with Normal Dispersion,” IEEE Journal of Lightwave Technology, Vol.40, No.4, pp.1092-1097, 2022.

[J14] Xuanyi Liu, Qian Li*, Denghui Pan, Feng Ye, Boris A. Malomed and H. Y. Fu**, “A robust and novel linear fiber laser mode-locked by nonlinear polarization evolution in all-polarization-maintaining fibers,” IEEE Journal of Lightwave Technology, Vol. 39, No. 23, pp. 7509 - 7516, 2021.

[J15] Lirong Cheng, Simei Mao, Xin Tu and H. Y. Fu*, “Dual-wavelength-band grating coupler on 220-nm silicon-on-insulator with high numerical aperture fiber placed perfectly-vertically,” IEEE Journal of Lightwave Technology, Vol. 39, No. 8, pp. 5902-5909, 2021.

[J16] Xin Tu, Wansheng Xie, Zhenmin Chen, Ming-Feng Ge, Tianye Huang, Chaolong Song and H. Y. Fu*, “Analysis of Deep Neural Network Models for Inverse Design of Silicon Photonic Grating Coupler,” IEEE Journal of Lightwave Technology, Vol. 39, No. 9, pp. 2790-2799, 2021.

[J17] Zihan Zang, Zhi Li, Yi Luo, Yanjun Han, Hongtao Li, Xuanyi Liu, and H. Y. Fu, “Ultrafast Parallel Single-Pixel Lidar with All-Optical Spectro-Temporal Encoding.” APL Photonics, vol. 7, no. 4, p. 046102, 2022.

[J18] Cong Zhao, Ping Liu, Wanqing Cai, Wenzhan Xu, Muhammad Umair Ali, Zhuhua Xu, H. Y. Fu, Hong Meng, Jingzhou Li, and Guodan Wei, “Polymer-Assisted Phase Stable Γ-Cspbi3 Perovskite Film for Self-Powered and Ultrafast Photodiodes.” Advanced Materials Interfaces, vol. 9, no. 9, p. 2102212, 2022.

[J19] MSA Gandhi, Y Zhao, C Huang, Y Zhang, HY Fu, Q Li, “Highly sensitive refractive index sensor based on plastic optical fiber balloon structure”, Optics Letters 47 (7), 1697-1700, 2022.

[J20] Zhaoming Wang, Li Zhang, Jingzhou Li, Guodan Wei, Yuhan Dong, and H. Y. Fu, “Fluorescent concentrator based MISO-NOMA for visible light communications,” Opt. Lett. 47, 902-905, 2022.

[J21] Zhi Li, Bonan Liu, Changrui Liao, and H. Y. Fu*, “Solid-state FMCW LiDAR with In-fiber Beam Scanner,” Optics Letters, Vol.47, No.3, pp.469-472,2022.

[J22] Zhaoming Wang, Li Zhang, Jingzhou Li, Guodan Wei, Yuhan Dong* and H. Y. Fu*, “Fluorescent Concentrator based MISO-NOMA for Visible Light Communications,” Optics Letters, Vol.47, No.4, pp.902-905, 2022.

[J23] Simei Mao, Lirong Cheng, Fasial Nadeem Khan, Zihan Geng, Qian Li, and H. Y. Fu, Inverse Design of High-Dimensional Nanostructured 2×2 Optical Processors Based On Deep Convolutional Neural Networks, J. Lightwave Technol. 40, 2926-2932 (2022)

[J24] Yaqi Han, Zhi Li, Lican Wu, Songping Mai, Xinpeng Xing, and H. Y. Fu*, High-Speed Two-Dimensional Spectral-Scanning Coherent LiDAR System Based on Tunable VCSEL, J. Lightwave Technol., 2022. (Early Access Available)

Selected Recent Conference Papers:

[C1] Zhi Li, Bonan Liu, Zihan Zang, Yaqi Han, Lican Wu, Changrui Liao and H. Y. Fu*, “Compact Solid-state Coherent LiDAR based on In-fiber Beam Scanner,” in Proc. of the Asia Communications and Photonics Conference (ACP’2021), T4D.2, Shanghai, China, Oct. 2021. (Post-deadline Paper)

[C2] Zihan Zang, Yunpeng Xu, Haoqiang Wang, Zhi Li, Yanjun Han, Hongtao Li, H. Y. Fu and Yi Luo*, “Ultrafast agile optical beam steering based on arrayed diffractive elements,” in Proc. of the Asia Communications and Photonics Conference (ACP’2021), T4D.6, Shanghai, China, Oct. 2021. (Post-deadline Paper)

[C3] Denghui Pan, Xuanyi Liu, Boris Malomed, H. Y. Fu* and Qian Li** “Build-up Dynamics of Dissipative Solitons in a Nonlinear Polarization Evolution Mode-locked Fiber Laser,” in Proc. of the Asia Communications and Photonics Conference (ACP’2021), T4A.3, Shanghai, China, Oct. 2021. (Best Poster Award)

[C4] Lirong Cheng, Simei Mao and H. Y. Fu*, “Silicon-on-insulator grating couplers for dual-band and triple-band multiplexing,” in Proc. of the Asia Communications and Photonics Conference (ACP’2021), T1I.3, Shanghai, China, Oct. 2021. (Best Student Paper Award)

[C5] Renlai Zhou*, Qian Li** and H. Y. Fu, “Commensalism of quasi-coherent noise-like and conventional soliton pulse in a simplified NPE mode-locked fiber laser”, in Proc. Of the 20th International Conference on Optical Communications & Networks (ICOCN), Tai’an, China, Aug. 23rd-27th, 2021. (Young Scientist Award)

[C6] Zhaoming Wang, Li Zhang, Jingzhou Li, Zixian Wei, Yuhan Dong, Guodan Wei, H. Y. Fu*, “Wide Field-of-View Color-Converting Concentrator for High-Speed MIMO UV-to-Visible Light Communication,” in Proc. of the 26th Optoelectronics and Communications Conference (OECC), Virtual Conference, Jul. 2021. (Best Student Paper Award)

[C7] Xuanyi Liu, Zhi Li, Denghui Pan, Qian Li, H. Y. Fu*, “All-polarization-maintaining Bidirectional Dual-comb Fiber Laser by Nonlinear Polarization Evolution,” in Proc. of the 26th Optoelectronics and Communications Conference (OECC), Virtual Conference, Jul. 2021. (Best Student Paper Award)

[C8] Zhi Li, Zihan Zang, Xuanyi Liu, Mutong Li and H. Y. Fu*, “LiDAR integrated high-capacity indoor OWC system with user localization capability,” in Proc. of Optical Fiber Communication Conference (OFC), Tu5E.2, Virtual Conference, June 6th-11th, 2021.

[C9] Zhi Li, Zihan Zang, Xuanyi Liu, Lican Wu and H. Y. Fu*, “Solid-state FMCW LiDAR based on a 2D disperser,” in Proc. of The Conference on Lasers and Electro-Optics (CLEO’2021), AW3S.7, Virtual Conference, May 9th-14th, 2021.

[C10] Zihan Zang, Zhi Li, Yi Luo*, Yanjun Han, Xuanyi Liu, Lican Wu and H. Y. Fu*, “Ultrafast Parallel LiDAR with All-optical Spectro-temporal Encoding,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2021), SM1E.6, Virtual Conference, May 9th-14th, 2021.

[C11] Simei Mao, Lirong Cheng, Caiyue Zhao and H. Y. Fu*, “Coarse Wavelength Division (De)Multiplexer Based on Cascaded Topology Optimized Wavelength Filters,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2021), JW1A.62, Virtual Conference, May 9th-14th, 2021.

[C12] Lirong Cheng, Simei Mao, Yixiang Hu and H. Y. Fu*, “Dual-layer SiNx-on-SOI grating coupler as an efficient higher-order fiber mode multiplexer,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2021), JW1A.178, Virtual Conference, May 9th-14th, 2021.

[C13] Zhenmin Chen, Qian Li, and H. Y. Fu*, “Tunable stimulated Brillouin scattering by dual lasers pumping in a WGM microcavity,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2020), JTh2E.31, San Jose, California, USA, May 12th-14th, 2020.

[C14] Lirong Cheng, Simei Mao, Xin Mu, Sailong Wu and H. Y. Fu*, “Dual-wavelength-band multiplexed grating coupler on multilayer SiN-on-SOI photonic integrated platform,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2020), JTh2F.8，San Jose, California, USA, May 12th-14th, 2020.

[C15] Yang Luo，Zhenmin Chen, Qian Li, and H. Y. Fu*, “EIT-like phenomena and characteristics of cavity optomechanics in a single cavity,” in Proc. of the Conference on Lasers and Electro-Optics (CLEO’2020), JTu2A.13, San Jose, California, USA, May 12th-14th, 2020.

[C16] Zixian Wei, Li Zhang, Lei Wang, Chien-Ju Chen, Alberto Pepe, Xin Liu, Kai-Chia Chen, Yuhan Dong, Meng-Chyi Wu, Lai Wang*, Yi Luo, and H. Y. Fu*, “High-speed Visible Light Communication System Based on a Packaged Single Layer Quantum Dot Blue Micro-LED with 4-Gbps QAM-OFDM,” in Proc. of Optical Fiber Communication Conference (OFC), M3I.7, San Diego, California, USA, Mar. 2020.

[C17] Zhenmin Chen, Qian Li, and H. Y. Fu*, “Tuning stimulated Brillouin scattering by two lasers pumping in a WGM microcavity,” in Proc. of The Conference on Lasers and Electro-Optics (CLEO’2020), San Jose, California, USA, May 12th-14th, 2020.

[C18] Lirong Cheng, Simei Mao, Xin Mu, Sailong Wu and H. Y. Fu*, “Dual-wavelength-band multiplexed grating coupler on multilayer SiN-on-SOI photonic integrated platform,” in Proc. of The Conference on Lasers and Electro-Optics (CLEO’2020), San Jose, California, USA, May 12th-14th, 2020.

[C19] Yang Luo，Zhenmin Chen, Qian Li, and H. Y. Fu*, “EIT-like phenomena and characteristics of cavity optomechanics in a single cavity,” in Proc. of The Conference on Lasers and Electro-Optics (CLEO’2020), San Jose, California, USA, May 12th-14th, 2020.

[C20] Zixian Wei, Li Zhang, Lei Wang, Chien-Ju Chen, Alberto Pepe, Xin Liu, Kai-Chia Chen, Yuhan Dong, Meng-Chyi Wu, Lai Wang*, Yi Luo, and H. Y. Fu*, “High-speed Visible Light Communication System Based on a Packaged Single Layer Quantum Dot Blue Micro-LED with 4-Gbps QAM-OFDM,” in Proc. of Optical Fiber Communication Conference (OFC), M3I.7, San Diego, California, USA, Mar. 2020.

Selected Patents:

[P1] Coherent Waveform Conversion in Optical Networks, US Patent 9,531,472

[P2] Device and method for all-optical information exchange, US Patent 9,618,822

[P3] Cross waveguide, US Patent 9,766,399 B2

[P4] Optical Interconnector, Optoelectronic Chip System, and Optical Signal Sharing Method, US Patent 9,829,635

[P5] Polarization rotator and optical signal processing method, US Patent App. 15/795,626

[P6] Optical switch chip, optical switch driving module, and optical switch driving method, US Patent App. 15/625,829

[P7] Apparatus and Method for Measuring Group Velocity Delay in Optical Waveguide, US Patent App. 15/293,904

[P8] Polarizer and Polarization Modulation System, US Patent App. 15/187,328

[P9] Resonant Cavity Component Used in Optical Switching System, US Patent App. 15/178,302

[P10] Grating Coupler and Preparation Method, US Patent App. 15/835,748

[P11] Device and Method for All-optical Information Exchange, EP3046334B1

[P12] Spot size Converter and Apparatus for Optical Conduction, EP14897866.1

[P13] Polarizer and Polarization Modulation System, EP13899938.8

[P14] Optical Interconnection Device, Optoelectronic Chip System, and Optical Signal Sharing Method, EP3118661A1

[P15] Polarization Rotator and Optical Signal Processing Method, EP3290974A1

[P16] Grating Coupler and Preparation Method Therefor, EP3296782A1

[P17] Waveguide Polarization Splitter and Polarization Rotator, JP6198091B2

[P18]一种光信号分插复用器及光信号处理方法，授权中国专利公告号：CN104166291B

[P19]基于硅基波导亚波长光栅和多模干涉原理的十字交叉波导, 中国专利申请公开号: 201910333223.2

[P20]一种无线光通信系统及方法, 中国专利申请公开号:201910295793.7

[P21]一种可调谐激光器及其制作方法, 中国专利申请公开号: 201910285586.3

[P22]一种扫频光源及其制作方法, 中国专利申请公开号: 201910074468.8

[P23]一种基于可调谐VCSEL的无线光通信系统, 中国专利申请公开号: 201811039293.9

[P24]一种空间光通信系统, 中国专利申请公开号:201811564347.3

[P25]一种基于可调谐VCSEL的无线光通信系统, 中国专利申请公开号:201811039293.9

[P26]一种电流检测器件, 中国专利申请公开号:201810751591.4

[P27]微流体的检测装置及方法, 中国专利申请公开号:201810802301.4

[P28]一种无线光通信系统, 中国专利申请公开号:201811002828.5

[P29]一种室内无线光通信上行链路, 中国专利申请公开号:201810636495.5

[P30]一种光栅耦合器及其制备方法, 中国专利申请公开号: CN107076932A

[P31]光栅耦合器及其制作方法, 中国专利申请公开号: CN106461865A

[P32]光纤耦合的系统和方法, 中国专利申请公开号: CN106575999A

[P33]全光信息交换装置及方法, 中国专利申请公开号: CN104469555A

[P34]波导偏振分离和偏振转换器, 中国专利申请公开号: CN105829933A

[P35]起偏器及偏振调制系统, 中国专利申请公开号: CN105829935A