Address

    Department of Electronic Engineering, Tsinghua University
    Rm. 2-103A, Tsinghua-Rohm Electronic Engineering Hall, Tsinghua University
    Beijing 100084, China
    Tel: +86-10-62797396
    Fax: +86-10-62770317
    Email:yidonghuang@tsinghua.edu.cn

Education
    Institution:             Tsinghua University, China
    Date From/To:       1983-1994
    Degree/Diploma:   Ph.D.

    Institution:             Tokyo Institute of Technology, Japan
    Date From/To:       1991-1993 (on leave from the Tsinghua University)
    Degree/Diploma:   Research student

Professional Experience

2003.7~Now Professor, Department of Electronic Engineering,TsinghuaUniversity.
 （*Note: Vice Chair of the Department from 2007 to 2012,
Chair of the Department from 2013 to 2019,
Dean of the Institute for Electronics and Information Technology in Tianjin, 

Tsinghua University from 2015 to 2019,
Vice Chair of Academic Committee of Tsinghua University, from 2020 to now.  ）

Devote to the research of nano-optoelectronics, discovering the novel photoelectric effects and enabling them to solve bottlenecks in the field of optoelectronics by studying the interaction between electron, photon, SPP, as well as phonon in various micro-nano structures. 

1998-2003.3 Assistant manager, Photonic and Wireless Devices Research Laboratories, NEC Corporation. 
Developed DFB laser diodes for digital metropolitan area and access networks, as well as uncooled and directly modulated 1.3m DFB LDs for 10Gb/s ethernet.

1994~1998 Member of technical staff, Kansai Electronics Research Laboratories, NEC Corporation.
Developed and implemented a novel design method for external optical feedback resistant DFB-LDs based on a dynamic transient analysis. Set up a 2.5Gb/s transmission experimental system with variable external optical feedback. Optimized the 1.3m MQW structure for high temperature operation.

1991-1994 Ph.D. student at Arai laboratory, Tokyo Institute of Technology.
Conducted thesis research on strained quantum-well (QW) laser diodes and laser amplifiers. Based on a generic model, developed an improved theory on the gain characteristics in strained QWs and discovered the advantages of tensile-strained QWs for semiconductor laser diodes. Based on this theory, designed and fabricated laser diodes and optical amplifier with high perpormances. 

Honors and Awards

Special Prize of Tianjin Technical Invention, 2022

Special Prize of Teaching Achievement of Tsinghua University, 2021

Award for Ten Major Developments in China's Optics, 2017

Award for Significant Achievements on Optics in China, 2013

The First Prize of Teaching Achievement in Beijing, 2013

Mentor Award of Tsinghua University, 2012

The First Prize of Teaching Achievement of Tsinghua University, 2012

Award of Government Special Allowance in China, 2011

Appointed by the “National Talents Engineering” of China, 2007

Appointed by the “Changjiang Project” of China, 2005  

Appointed by the "Hundred Talents Plan" of Tsinghua university, 2003

“Merit Award”, NEC Corporration, for the contributions on developing low cost LD fabrication technology, 2003

“Merit Award” NEC Corporration, for the contributions on the development of PC-LDs, 1997

Outstanding Thesis Award, Tsinghua University, 1994.

Teaching

She has been engaged in teaching management for many years. She is one of the main founders of the electronic information curriculum system of Tsinghua University and devotes herself to the research of knowledge system and talent training in the field of electronic information.

She is the chief course instructor of “Solid State Physics”and “quantum electronics”.

Academic Achievement

Publications:

Authored/co-authored more than 400 journal and conference papers. 

More than thousands of citations and Hirsch factor is 26.

Patents:    

127 patents. 

(16 USA patents, 4European patent, 11Japaness patents, 3 Korean patents, and 93 Chinese patents.)

Concurrent Academic

Fellow of OSA

Deputy member of Director Board of Chinese Optical Society

Vice President of Chinese Electronic Education Association,

Vice President of Higher Education Branch Council,

Associate Editor of ACS Photonics

Social Service

- Chair of Industry Forum, International Conference on information Optics and Photonics (CIOP), 2021.

- Technical Program Committee, Optoelectronic Integrated Chip Forum and Silicon Optical Conference, 2021.

- TPC Chair of International Conference on information Optics and Photonics (CIOP), 2019.

- Local Chair of International Conference on information Optics and Photonics (CIOP), 2018.

- Committee member for the IEEE Photonics Conference, 31st Annual Conference of the IEEE Photonics Society (IPC)，2018. 

- Technical Program Committee, Optoelectronic and Communication Conference (OECC), 2016. 

- Technical Program Committee, Semiconductor Lasers of IEEE Photonics Conference (IPC), 2016.

- Co-Chair, International Conference on information Optics and Photonics (CIOP), 2015.

- Technical Program Committee, Optoelectronic and Communication Conference (OECC), 2014. 

- Co-chair, Optoelectronic Materials and Devices, Asia Communications and Photonics Conference and Exhibition (ACP), 2011.

- Subcommittee (SC) Co-Chair, Asia Communications and Photonics (APC), 2010.

- Technical Program Committee, International Conference on Solid State Devices and Materials (SSDM), 2008.

- Session Chair, Optoelectronic and Communication Conference (OECC), July 4-8, 2005.

Representative Papers

Optical Devices with Nanostructure:

[1] Ning Wu, Kaiyu Cui, Qiancheng Xu, Xue Feng, Fang Liu, Wei Zhang, and Yidong Huang, “On-chip mechanical exceptional points based on an optomechanical zipper cavity”, Science Advances, 9 (3), eabp8892, 2023.

[2] Jiawei Yang, Kaiyu Cui, Xusheng Cai, Jian Xiong, Hongbo Zhu, Shijie Rao, Sheng Xu, Yidong Huang, Fang Liu, Xue Feng, and Wei Zhang, “Ultraspectral imaging based on metasurfaces with freeform shaped meta-atoms”, Laser & Photonics Reviews, 16 (7), 2100663, 2022.

[3] 黄翊东*，张巍，冯雪，刘仿，崔开宇，“基于微纳结构的新功能光电子芯片”，中国激光（封底文章），48(15)，1513001, 2021.

[4] Yidong Huang, “Twenty years of photonics”, ACS Photonics (IF:7.47),  Editorial, 8 (2), 384, 2021.
[5] Xuesi Zhao, Xue Feng, Fang Liu, Kaiyu Cui, Wei Zhang, and Yidong Huang, “A compound phase-modulated beam splitter to distinguish both spin and orbital angular momentum”, ACS Photonics, 7(1), 212, 2020.
[6] Yu Ye, Fang Liu, Mengxuan Wang, Lixuan Tai, Kaiyu Cui, Xue Feng, Wei Zhang, and Yidong Huang “Deep-ultraviolet Smith–Purcell radiation,” Optica, 6, 592, 2019.
[7] Fei Pan, Kaiyu Cui, Guoren Bai, Xue Feng, Fang Liu, Wei Zhang, and Yidong Huang, “Radiation-pressure-antidamping enhanced optomechanical spring sensing”, ACS Photonics, 5 (10), 4164, 2018.
[8] Fang Liu, Long Xiao, Yu Ye, Mengxuan Wang, Kaiyu Cui, Xue Feng, Wei Zhang, Yidong Huang, “Integrated Cherenkov radiation emitter eliminating the electron velocity threshold,” Nature Photonics, 11, 289, 2017.
[9] Peng Zhao, Shikang Li, Yu Wang, Xue Feng, Kaiyu Cui, Fang Liu, Wei Zhang, and Yidong Huang, “Identifying the tilt angle and correcting the orbital angular momentum spectrum dispersion of misaligned light beam“, Scientific Reports 7, 7873, 2017.
[10] Yu Wang, Václav Potoček, Stephen M. Barnett, and Xue Feng, “Programmable holographic technique for implementing unitary and nonunitary transformations”, Phys. Rev. A 95 (3), 33827, 2017.

[11] Shuai Dong, Xin Yao, Wei Zhang, Sijing Chen, Weijun Zhang, Lixing You, Zhen Wang, and Yidong Huang, “True single-photon stimulated four-wave mixing”, ACS Photonics, 4(4),746, 2017.
[12] Yu Wang, Peng Zhao, Xue Feng, Yuntao Xu, Fang Liu, Kaiyu Cui, Wei Zhang, and Yidong Huang, “Dynamically sculpturing plasmonic vortices: from integer to fractional orbital angular momentum”, Scientific Reports 6, 36269, 2016.
[13] Zhilei Huang, Kaiyu Cui, Yongzhuo Li, Xue Feng, Fang Liu, Wei Zhang, and Yidong Huang, “Strong optomechanical coupling in nanobeam cavities based on hetero optomechanical crystals”, Scientific Reports, 5, 15964, 2015.
[14] Yunxiang Li, Fang Liu, Yu Ye, Weisi Meng, Kaiyu Cui, Xue Feng, Wei Zhang, and Yidong Huang, “Two-surface-plasmon-polariton-absorption based lithography using 400 nm femtosecond laser,” Applied Physics Letters, 104(8), 081115, 2014.
[15] Yunxiang Li, Fang Liu, Long Xiao, Kaiyu Cui, Xue Feng, Wei Zhang, and Yidong Huang, “Two-surface-plasmon-polariton-absorption based nanolithography,” Applied Physics Letters, 102(6), 063113, 2013.
[16] Qi Xu, Fang Liu, Yuxiang Li, Kaiyu Cui, Xue Feng, Wei Zhang, and Yidong Huang, “Broadband light absorption enhancement in dye-sensitized solar cells with Au-Ag alloy popcorn nanoparticles,” Scientific Reports, 3, 2112, 2013.
[17] Kaiyu Cui, Xue Feng, Yidong Huang, Qiang Zhao, Zhilei Huang, and Wei Zhang, “Broadband switching functionality based on defect mode coupling in W2 photonic crystal waveguide,” Applied Physics Letters, 101(15), 151110, 2012.
[18] Di Qu, Fang Liu, Jiafan Yu, Wanlu Xie, Qi Xu, Xiangdong Li, and Yidong Huang, “Plasmonic core-shell gold nanoparticle enhanced optical absorption inphotovoltaic devices,” Applied Physics Letters, 98(11), 113119, 2011.
[19] Ruiyuan Wan, Fang Liu, and Yidong Huang, “Ultrathin layer sensing based on hybrid coupler with short-range surface plasmon polariton and dielectric waveguide,” Optics Letters, 35(2), 244-246, 2010.
[20] Fang Liu, Yidong Huang, Dai Ohnishi, Wei Zhang, and Jiangde Peng, “Hybrid three-arm coupler with long range surface plasmon polariton and dielectric waveguides,” Applied Physics Letters, 90(24), 241120, 2007.

Optical Devices for Optical Fiber Communication：

[21] Yidong Huang, Kenji Sato, Tetsuro Okuda, Naofumi Suzuki, Satoshi Ae, Yoshiharu Muroya, Kazuo Mori, Tatsuya Sasaki, and Kenichi Kobayashi, "Low-chirp and external optical feedback resistant characteristics in l/8 phase-shifted DFB-LDs under direct modulation", IEEE J. Quantum Electronics 35(11), 1479, 2002.
[22] Yidong Huang, Tetsuro Okuda, Kenji Sato, Yoshiharu Muroya, Tatsuya Sasaki, and Kenichi Kobayashi, "Isolator-free 2.5-Gb/s, 80-km transmission by directly modulated l/8 phase-shifted DFB-LDs under negative feedback effect of mirror loss", IEEE Photonics Technology Letters, 13(3), 245, 2001.
[23] Yidong Huang, Tetsuro Okuda, Kazuhiro Shiba, Yoshiharu Muroya, Naofumi Suzuki, and Kenichi Kobayashi, "External optical feedback resistant 2.5-Gb/s transmission of partially corrugated waveguide laser diodes over a -40 to 80 C temperature range", IEEE Photonics Technology Letters, 11(11), 1482, 1999.
[24] Yidong Huang, Tetsuro Okuda, Kazuhiro Shiba, and Toshitaka Torikai, "High-yield external optical feedback resistant partially-corrugated-waveguide laser diodes", IEEE J. Quantum Electronics, 5(3), 435, 1999.
[25] Yidong Huang, Hirohito Yamada, Tetsuro Okuda, Toshitaka Torikai, and Takeshi Uji, "External optical feedback resistant characteristics in partially-corrugated-waveguide laser diodes", Electronics Letters, 32(11), 1008, 1996.
[26] Yidong Huang, Kazuhiro Komori, and Shigehisa Arai, "Saturation characteristics of Ga1-xInxAs/GaInAsP/ InP tensile-strained QW semiconductor laser amplifiers with tapered waveguide structures", IEEE J. Quantum Electronics, 30(9), 2034, 1994.
[27] Yidong Huang, Kazuhiro Komori, and Shigehisa Arai, "Reduction of noise figure in semiconductor laser amplifiers with Ga1-xInxAs/GaInAsP/InP strained quantum well structure", IEEE J. Quantum Electronics, 29(12), 2950, 1993.
[28] Yidong Huang, Shigehisa Arai, and Kazuhiro Komori, "Theoretical linewidth enhancement factor of Ga1-xInxAs/ GaInAsP/InP strained quantum well structures", IEEE Photonics Technology Letters, 5(2), 142, 1993.