清華大學(xué)教授

清華大學(xué)學(xué)術(shù)委員會副主任，電子工程系教授 [1]  ，美國光學(xué)學(xué)會會士（Fellow of OSA） [2]  ，中國光學(xué)學(xué)會常務(wù)理事 [3]  ，中國電子教育學(xué)會副理事長 [4]  。

中文名

黃翊東

外文名

Yidong Huang

國    籍

中國

民    族

漢

畢業(yè)院校

清華大學(xué)

職    業(yè)

教師

主要成就

在國際上首次實現(xiàn)無閾值切倫科夫輻射，研制出世界首款實時光譜成像芯片 [5-8]    

職    稱

教授

研究方向

光電子器件及物理

目錄

1. 1 教育經(jīng)歷
2. 2 工作經(jīng)歷
3. 3 獲所榮譽(yù)

1. 4 教學(xué)工作
2. 5 學(xué)術(shù)兼職
3. 6 研究經(jīng)歷

1. 7 代表性論文

教育經(jīng)歷

編輯 播報

1988~1994 清華大學(xué)電子工程系, 博士 [9] 

(1991~1993 東京工業(yè)大學(xué), 聯(lián)合培養(yǎng)博士生)

1983~1988 清華大學(xué)電子工程系, 學(xué)士

工作經(jīng)歷

編輯 播報

2003 至今 清華大學(xué)電子工程系, 教授

(2007~2012任清華大學(xué)電子工程系副系主任，2013-2019年任清華大學(xué)電子工程系主任)

1994~2003 NEC株式會社 光-無線器件研究所, 特聘研究員

獲所榮譽(yù)

編輯 播報

2007 入選“國家百千萬人才工程”

2003 NEC株式會社 二等研究功績獎

1997 NEC株式會社 一等研究功績獎

1994 優(yōu)秀博士論文獎

教學(xué)工作

編輯 播報

多年從事教學(xué)管理工作，致力于電子信息領(lǐng)域知識體系和人才培養(yǎng)的研究，是清華大學(xué)電子信息大類課程體系的主要創(chuàng)建人之一。

主講課程：

固體物理基礎(chǔ) （2011-Now）

量子電子學(xué) （2003-Now）

納結(jié)構(gòu)光電子學(xué) （2004-2009）

學(xué)術(shù)兼職

編輯 播報

現(xiàn)擔(dān)任清華大學(xué)學(xué)術(shù)委員會副主任，美國光學(xué)學(xué)會會士（Fellow of OSA），中國光學(xué)學(xué)會常務(wù)理事、微納光學(xué)專業(yè)委員會委員，中國電子教育學(xué)會副理事長、高等教育分會副會長，ACS Photonics雜志副主編。

研究經(jīng)歷

編輯 播報

1994年畢業(yè)于清華大學(xué)電子工程系(博士學(xué)位)。1991年至1993年作為清華大學(xué)-日本東京工業(yè)大學(xué)聯(lián)合培養(yǎng)博士生赴日本東京工業(yè)大學(xué)荒井研究室留學(xué)，在此期間從事了應(yīng)變量子阱激光器及放大器增益特性的研究。首次在理論上提出拉伸應(yīng)變量子阱具有高微分增益和窄線寬的新論點；采用單層拉伸變量子阱有源區(qū)結(jié)構(gòu), 成功研制出低閾值(217A/cm2)的FP腔激光器和楔形波導(dǎo)大功率（單模輸出20.4dBm）光放大器；獲得優(yōu)秀博士論文獎。

1994年加入NEC光-無線器件研究所任特聘研究員，從事用于光纖通信領(lǐng)域的1.3及1.5微米DFB激光器的研究開發(fā)工作。提出DFB激光器“反射鏡損耗反饋效應(yīng)”的概念，為提高DFB激光器的性能提供了新的理論依據(jù)；發(fā)明“八分之一波長位移分布反饋”的新結(jié)構(gòu)，在世界上首次實現(xiàn)了-20dB反射光注入狀態(tài)下的無光隔離138公里傳輸；研究開發(fā)出獨創(chuàng)的無溫控抗反射PC-DFB激光器, 實現(xiàn)了從攝氏-40度到+85度的溫度范圍內(nèi)無光隔離45公里傳輸；成功地研制出適合工作在高溫環(huán)境下的FP腔激光器，實現(xiàn)了攝氏85度高溫環(huán)境下無致冷工作時5mA的低閾值及輸出功率5mW時僅20mA的低工作電流，是當(dāng)時世界上報道的同類器件中最好的實驗結(jié)果。于1997年獲得NEC一等研究功績獎，2003年獲得NEC二等研究功績獎。

2003年入選清華大學(xué)百人計劃，任電子工程系教授，致力于納結(jié)構(gòu)光電子學(xué)領(lǐng)域的研究，承擔(dān)過國家自然科學(xué)基金重點項目、973項目以及多項國際合作項目，帶領(lǐng)課題組在光子晶體、表面等離子激元、硅基波導(dǎo)的研究中取得創(chuàng)新突破，研制出具有自由電子輻射、實時光譜成像、軌道角動量輻射、量子態(tài)產(chǎn)生及操控等功能的集成光電子芯片；在國際上首次實現(xiàn)無閾值切倫科夫輻射 [10]  ，顛覆了傳統(tǒng)自由電子光源的形式，也使得在芯片上研究飛行電子與微納結(jié)構(gòu)的相互作用成為可能 [11]  。該項成果入選“2017年中國光學(xué)十大進(jìn)展” [12]  。

發(fā)表論文300余篇，引用數(shù)千次，獲得國際專利20余項；積極推動科研成果產(chǎn)業(yè)化，是光電子芯片企業(yè)華慧芯科技、與光科技的創(chuàng)始人。

代表性論文

編輯 播報

納結(jié)構(gòu)光電子器件相關(guān)：

[1] 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, 2020, 7(1), 212-220, 2020.

[2] 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 -597, 2019.

[3] Fei Pan, Kaiyu Cui, Guoren Bai, Xue Feng, Fang Liu, Wei Zhang and Yidong Huang, “Radiation-pressure-antidamping enhanced optomechanical spring sensing”, ACS Photonics, 2018.

[4] 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.

[5] 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.

[6] 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.

[7] Peng Zhao, Shikang Li, Xue Feng, Kaiyu Cui, Fang Liu, Wei Zhang, and Yidong Huang, “Measuring the complex orbital angular momentum spectrum of light with mode matching method”, Optics Letters, 42(6), 1080-1083, 2017.

[8] 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),746-753, 2017.

[9] 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.

[10] Shuai Dong, Wei Zhang, Yidong Huang, and Jiangde Peng, “Long-distance temporal quantum ghost imaging over optical fibers”, Scientific Reports, 6,26022, 2016.

[11] 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.

[12] 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.

[13] 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.

[14] Boyu Fan, Fang Liu, Xiaoyan Wang, Yunxiang Li, Kaiyu Cui, Xue Feng, and Yidong Huang, “Integrated sensor for ultra-thin layer sensing based on hybrid coupler with short-range surface plasmon polariton and dielectric waveguide,” Applied Physics Letters, 102(6), 061109, 2013.

[15] 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.

[16] 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.

[17] 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.

[18] 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.

[19] 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.

光纖通信半導(dǎo)體光電器件相關(guān)：

[20] Yidong Huang, Kenji Sato, Tetsuro Okuda, Naofumi Suzuki, Satoshi Ae, YoshiharuMuroya, Kazuo Mori, Tatsuya Sasaki, and Kenichi Kobayashi, "Low-chirp andexternal optical feedback resistant characteristics in l/8 phase-shifted DFB-LDs under directmodulation", IEEE J. Quantum Electronics 35(11), 1479, 2002.

[21] Yidong Huang, Tetsuro Okuda, Kenji Sato, YoshiharuMuroya, Tatsuya Sasaki, and Kenichi Kobayashi, "Isolator-free 2.5-Gb/s,80-km transmission by directly modulated l/8 phase-shifted DFB-LDs under negativefeedback effect of mirror loss", IEEE Photonics Technology Letters, 13(3),245, 2001.

[22] Yidong Huang, Tetsuro Okuda, Kazuhiro Shiba, YoshiharuMuroya, Naofumi Suzuki, and Kenichi Kobayashi, "External optical feedbackresistant 2.5-Gb/s transmission of partially corrugated waveguide laser diodesover a -40 to 80 C temperature range", IEEE Photonics Technology Letters, 11(11),1482, 1999.

[23] Yidong Huang, Tetsuro Okuda, Kazuhiro Shiba, and ToshitakaTorikai, "High-yield external optical feedback resistantpartially-corrugated-waveguide laser diodes", IEEE J. Quantum Electronics,5(3), 435, 1999.

[24] Yidong Huang, Hirohito Yamada, Tetsuro Okuda, Toshitaka Torikai,and Takeshi Uji, "External optical feedback resistant characteristics inpartially-corrugated-waveguide laser diodes", Electronics Letters, 32(11),1008, 1996.

[25] Yidong Huang, Kazuhiro Komori, and Shigehisa Arai,"Saturation characteristics of Ga1-xInxAs/GaInAsP/ InP tensile-strained QWsemiconductor laser amplifiers with tapered waveguide structures", IEEE J.Quantum Electronics, 30(9), 2034, 1994.

[26] Yidong Huang, Kazuhiro Komori, and Shigehisa Arai,"Reduction of noise figure in semiconductor laser amplifiers withGa1-xInxAs/GaInAsP/InP strained quantum well structure", IEEE J. QuantumElectronics, 29(12), 2950, 1993.

[27] Yidong Huang, Shigehisa Arai, and Kazuhiro Komori,"Theoretical linewidth enhancement factor of Ga1-xInxAs/ GaInAsP/InPstrained quantum well structures", IEEE Photonics Technology Letters, 5(2),142, 1993.