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清华大学研究生院导师信息:黄翊东

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清华大学研究生院导师信息:黄翊东清华大学电子工程系信息光电子研究所导师信息黄翊东博士教授罗姆楼2-103A,中国北京市清华大学电子工程系100084电话:+86-10-62797396传真:+86-10-62770317电子邮箱:yidonghuang@ ...
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清华大学研究生院导师信息:黄翊东

清华大学电子工程系信息光电子研究所导师信息

黄翊东    博士 教授

罗姆楼2-103A,中国北京市清华大学电子工程系 100084

电话: +86-10-62797396

传真:+86-10-62770317

电子邮箱: yidonghuang@tsinghua.edu.cn


教育背景1994年毕业于清华大学电子工程系(博士学位)。1991年至1993年作为联合培养博士生赴日本东京工业大学留学,在此期间从事了应变量子阱激光器及放大器增益特性的研究,获得优秀博士论文奖。

工作履历1994年成为NEC光-无线器件研究所的特聘研究员,从事用于光纤通信领域的1.3及1.5微米DFB激光器的研究开发工作。于1997年获得NEC一等研究功绩奖,2003年获得NEC二等研究功绩奖。

2003年7月作为清华大学百人计划引进人才,到清华大学电子工程系任教,2005年2月被聘为教育部长江学者特聘教授,2007年被评为新世纪百千万人才工程国家级人选。在2007年至2012年期间担任电子工程系副系主任,并于2013年起担任系主任。


学术兼职现为美国电子电机工程学会(IEEE)的会员,《电子学报》编委,中国计量科学研究院计量科学咨询委员会委员。

研究概况目前承担了国家自然科学基金重点项目、973项目以及多项国际合作项目,致力于纳结构光电子学领域的研究,她的研究小组在光子晶体、表面等离子体波导器件以及量子通信光源的研究中取得重要进展,发表论文200余篇。

学术成果期刊论文

[1] Y. Huang, K. Komori, and S. Arai, "Reduction of noise figure in semiconductor laser amplifiers with Ga1-xInxAs/GaInAsP/InP strained quantum well structure", IEEE J. Quantum Electron., vol. 29, no. 12, pp. 2950-2956, 1993.

[2] Y. Huang, S. Arai, and K. Komori, "Theoretical linewidth enhancement factor of Ga1-xInxAs/GaInAsP/InP strained quantum well structures", IEEE Photo. Tech. Lett., vol.5, no.2, pp.142-145, 1993.

[3] K. Kudo, Y. Nagashima, S. Tamura, S. Arai, and Y. Huang, "Ga1-xInxAs/GaInAsP/InP tensile-strained single quantum-well lasers with 70-nm period wire active region", IEEE Photo.Tech. Lett., vol. 5, no. 8, pp. 864-867, 1993.

[4] Y. Huang, K. Komori, and S. Arai, "Theoretical noise characteristics of semiconductor laser amplifiers with Ga1-xInxAs/GaInAsP/InP strained quantum well structure", IEICE Technical Report, OQE92-150, 1993.

[5] Y. Huang, K. Komori, K. Kudo, S. E. Yumin, and S. Arai, "Ga1-xInxAs/GaInAsP/InP tensile-strained quantum well semiconductor laser amplifiers with tapered waveguide structures", IEICE Technical Report, OCS93-20, 1993.

[6] K. Komori, Y. Huang, S.El Yumin, and S. Arai, "Saturation characteristics and optical coupling of tapered-waveguide traveling wave semiconductor laser amplifier (TTW-SLA)", IEICE Technical Report, OQE93-64, 1993.

[7] Y. Huang, S. Arai, and K. Komori, "Effect of Strain on threshold current of Ga1-xInxAs/GaInAsP/InP strained quantum well lasers", Nat. Conv. Rec. of IEICE Japan, C-158, 1993, Japan.

[8] Y. Huang, K. Komori, K. Komori, and S. Arai, "Saturation characteristics of Ga1-xInxAs/GaInAsP/InP tensile-strained QW semiconductor laser amplifiers with tapered waveguide structures", IEEE J. Quantum Electron., vol. 30, no. 9, pp. 2034-2039, 1994.

[9] Y. Huang, H. Yamada, Y. Sasaki, T. Torikai, and T. Uji, "Gain characteristics of 1.3?m compressively strained MQW lasers at high temperature", NEC Research & Development, vol. 36, no. 4, pp. 479-484, 1995.

[10] Y. Huang, H. Yamada, T. Okuda, T. Torikai, and T. Uji, "External optical feedback resistant characteristics in partially-corrugated-waveguide laser diodes", Electron. Lett., vol. 32, no. 11, pp. 1008-1009, 1996.

[11] T. Okuda, Y. Huang, H. Yamada, Y. Sasaki, and T.Torikai, "Partially corrugated waveguide laser diodes for optical CATV network", IEICE Technical Report, OQE92-150, 1996.

[12] K. Shiba, T. Okuda, Y. Huang, H. Yamada, and T. Torikai, "External optical feedback resistant 622-Mb/s modulation of partially-corrugated-waveguide laser diodes over -40 to +85C", IEEE Photo. Tech. Lett., vol. 10, pp.872-874, 1998.

[13] T. Okuda, K. Shiba, Y. Huang, Y. Muroya, N. Suzuki, and T. Torikai, "High-yield partially corrugated waveguide laser diodes for optical networks", IEICE Technical Report, OPE98-13, 1998.

[14] Y. Huang, T.Okuda, K. Shiba, and T. Torikai, "Grating length dependence of external optica feedback resistant characteristics in PC-LDs", Nat. Conv. Rec. of IEICE Japan, c-4-32, 1998, Japan.

[15] Y. Huang, T. Okuda, K. Shiba, Y. Muroya, N. Suzuki, and K. 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 Photo. Tech. Lett., vol. 11, no. 11, pp. 1482-1484, 1999.

[16] Y. Huang, T. Okuda, K. Shiba, and T. Torikai, "High-yield external optical feedback resistant partially-corrugated-waveguide laser diodes", IEEE J. Quantum Electron., vol. 5, no. 3, pp. 435-441, 1999.

[17] Y. Huang, T. Okuda, K. Sato, Y. Muroya, T. Sasaki, and K. Kobayashi, "Low chirping ?/8 phase-shifted DFB-LDs under direct modulation", IEICE Technical Report, OPE2000-43, 2000.

[18] Y. Huang, T. Okuda, K. Sato, Y. Muroya, T. Sasaki, and K. Kobayashi, "Isolator-free 2.5-Gb/s, 80-km transmission by directly modulated ?/8 phase-shifted DFB-LDs under negative feedback effect of mirror loss", IEEE Photo. Tech. Lett., vol. 13, no. 3, pp. 245-247, 2001.

[19] Y.Huang, K. Sato, T. Okuda, N. Suzuki, S. Ae, Y. Muroya, K. Mori, T. Sasaki, and K. Kobayashi, "Low-chirp and external optical feedback resistant characteristics in ?/8 phase-shifted DFB-LDs under direct modulation", IEEE J. Quantum Electron. vol. 35, no. 11, pp. 1479-1484, 2002.

[20] Y. Zhong, X. Zhu, G. Song, Y. Huang, L. Chen, Effect of metal contact's reflection on the effective coupling coefficient of second-order DFB laser diodes, Microwave and Optical Tech. Lett., vol. 42, no. 4, pp. 339-342, 2004.

[21] Y. Zhong, X. Zhu, G. Song, Y. Huang, L. Chen, Two-dimensional simulation of high-order laterally-coupled GaAs-AlGaAs DFB laser diodes, Semiconductor Science and Technology, vol.19, pp. 971-974, 2004.

[22] *Y.Luo, W. Zhang, Y. Huang, J. Peng, J. Zhao "Wide-angle beam splitting using the positive-negative refraction in photonic crystals", Optics Lett., vol.29, no. 24, pp.2920-2923, 2004.

[23] *C. Li, Y. Huang, W. Zhang, Y. Ni, and J. Peng, Amplification Properties of Erbium-doped Solid-core Photonic Bandgap Fibers, IEEE Photo. Tech. Lett., vol. 17, no. 2, pp. 324-326, 2005.

[24] *X. Hu, Y. Huang, W. Zhang, D. Qing, Jiangde Peng, Opposite Goos-Hänchen shifts for TE and TM beams at the interface associated with single negative materials, Optics Lett., vol.30, no. 8, pp.899-901,2005.

[25] *J.Wang, Y. Huang, W. Zhang, J. Peng, "Reduction of refractive index contrast threshold for photonic band-gap in square lattices", Chin.Phys.Lett., vol.22, no.12, pp.3094-3096, 2005.

[26] Y. Huang, Optoelectronic device in optical fiber communications, (Invited Paper) Physics, vol. 34, no. 10, pp. 739-747, 2005.

[27] *C. Li, W. Zhang, Y. Huang, and J. Peng, Numerical study on Bragg fibers for infrared applications, J.of Infrared and Millimeter Waves, vol. 26, no. 6, pp. 893-904, 2005.

[28] *H. Zhao, Y. Huang, W. Zhang, J. Peng, Simulation of active region for polarization-insensitive superluminescent diodes Chin. Optic.Lett, vol. 4, no. 3, pp.181-183, 2006.

[29] *Z. Xin, Y. Huang, Z. Han, W. Zhang, J. Peng,, Optimization Design of Superluminescent Diodes with RWG Structure for High Efficiency Coupling with SMFs, Chinese J. of Semiconductors, vol. 27, no. 4, pp.113-117, 2006.

[30] *P. Wang, Y. Huang, W. Zhang, J. Peng, Out-plane confinement with matching layer structure in quasi-3D photonic crystal waveguide IEEE Photo. Tech. Lett., vol. 18, no. 11, pp. 1270-1272, 2006.

[31] *F. Li, Y. Huang, W. Zhang, J. Peng, spatially inhomogeneous gain modufication in photonic crystals, Chin.Phys.Lett., vol. 23, no.8, pp.2117-2120, 2006.

[32] *X. Hu, Y. Huang, Wei Zhang, Jiangde Peng, Dominating radiative recombination in a Nano-porous silicon layer with a metal–rich Au(1-?)-SiO2(?) cermet waveguide, Appl. Phys. Lett. vol. 89, no. 081112, 2006.

[33] W. Zhang, *L. Zhang, *L. Xiao, Y. Huang, J. Peng, Microstructure- Fiber-Based Optical Parametric Amplification in Telecom Band with Ultra High Gain Slope, Chinese Physics Letters,2006.

[34] W. Zhang, *L. Zhang, S. Chen, Q. Cai, Y. Huang, J. Peng,Low Loss Splicing Experiment of High Nonlinearity Photonic Crystal Fiber and Single Mode Fiber, China Laser,vol. 33, no. 10, pp. 1389-1392, 2006.

[35] *C. Lin, W. Zhang, Y. Huang, J. Peng, "Zero dispersion slow light with low leakage loss in defect Bragg Fiber, Appl. Phys. Lett. vol. 90, no. 031109, 2007.

[36] *G. Xu, W. Zhang, Y. Huang, J. Peng, Loss Characteristics of Single HE11 Mode Bragg Fiber, IEEE J. Lightwave Tech.,vol. 25, no. 1, 2007.

[37] *Y. Rao, *F. Liu, Y. Huang, W. Zhang, J. Peng, Long Range Surface Plasmon Polariton Guided by Thin Metal Stripe, Chin. Phys. Lett., vol. 24, 1626, 2007.

[38] *X. Mao, *J. Wang, Y. Huang, W. Zhang, J. Peng,.Improving performance of photonic crystal couplers by suppressing mode power reservation Chin.Phys.Lett., vol. 24, no. 2, pp.454-457, 2007.

[39] *F. Liu, *Y. Rao, Y. Huang, W. Zhang, J. Peng, Coupling Between Long Range Surface Plasmon Polariton Mode and Dielectric Waveguide Mode, Appl. Phys. Lett., 90, 141101, 2007.

[40] *F. Liu, Y. Huang, D. Ohnishi, W. Zhang, J. Peng, Existence of Long Range Surface Plasmon Polariton Modes Guided by Thin Metal Films, Chin. Phys. Lett., vol. 24, no.12, pp.3462-3464, 2007.

[41] *F. Liu, Y. Huang, D. Ohnishi, W. Zhang, J. Peng, Hybrid three-arm coupler with long range surface plasmon polariton and dielectric waveguides, Appl. Phys. Lett., 90, 241120, 2007.

[42] *C. Zhang, *X. Tang, *X. Mao, *K. Cui, *L. Cao, Y. Huang, W. Zhang, and J. Peng, Design, Fabrication, and Measurement of Two Dimensional Photonic Crystal Slab Waveguides, Chin.Phys.Lett., vol. 25, no. 3, pp.978-980, 2008.

[43] *K. Cui, Y. Huang, W. Zhang, and J. Peng, Modified gain and mode characteristics in two-dimension photonic crystal waveguide with microcavity structure, IEEE J. Lightwave Tech., vol. 26, pp. 1492-1497, 2008.

[44] *C. Lei, Y. Huang, X. Mao, F. Li, W. Zhang, J. Peng, Fluid Sensor Based on Transmission Dip Caused by Mini Stop-Band in Photonic Crystal Slab, Chin.Phys.Lett., vol. 25, no. 6, pp.2101-2103, 2008.

[45] *X. Mao, *D. Yao, *L. Zhao, Y. Huang, W. Zhang, J. Peng, An integrative biochemical sensor based on contra-directional coupling PC-waveguides, Chin.Phys.Lett., vol. 25, no. 1, pp.141-143, 2008.

[46] *X. Tang, Y. Huang, Y. Wang, K. Chen, W. Zhang, and J. Peng, Tunable surface plasmons for emission enhancement of silicon nanocrystals using Ag-poor cermet layer, Appl. Phys. Lett.. vol. 92, no. 25, pp.251116-1-3, 2008.

[47] Y. Huang, X. Mao, K. Cui, C. Zhang, L. Cao, W. Zhang and J. Peng, Photonic crystal waveguides and their applications, (Invited paper), Chin. Optical. Lett.. vol. 6, no. 10, pp.704-708, 2008.

[48] *F. Liu *R. Wan *Y. Li, Y. Huang Y. Miura, D. Ohnishi, and J. Peng, "Extremely high efficient coupling between long range surface plasmon polariton and dielectric waveguide mode", Applied Physics Letters, 95 (9): 91103-91104, 2009.

[49] *F. Liu, *R. Wan, Y. Huang, and J. Peng, "Refractive index dependence of the coupling characteristics between long-range surface-plasmon-polariton and dielectric waveguide modes", Optics Letters, 34 (17): 2697-2699, 2009.

[50] X. Feng, *W. Ke, *X. Tang, Y. Huang, W. Zhang, and J. Peng, Numerical Solution of Surface Plasmon Polariton Mode Propagating on Spatially Periodic Metal-Dielectric Interface, Journal of the Optical Society of America B, 26 (12): B11 - B20, 2009.

[51] *X. Mao, Y. Huang, *K. Cui, *C. Zhang, W. Zhang, and J. Peng, "Effects of structure parameters and structural deviations on the characteristics of photonic crystal directional couplers", IEEE Journal of Lightwave Technology, 27 (18): 4049-4054, 2009.

[52] *R. Wan, *L. Fang, and *T. Xuan, Y. Huang, and J. Peng, "Vertical coupling between short range surface plasmon polariton mode and dielectric waveguide mode", Applied Physics Letters, 94 (14): 141103-141104, 2009.

[53] *Q. Zhou, W. Zhang, J. Cheng, Y. Huang, and J. Peng, Polarization-Entangled Bell States Generation Based on Birefringence in High Nonlinear Microstructure Fiber at 1.5??m, Optics Letters, 34 (15):2706-2708, 2009.

[54] W. Wang, W. Zhang, and W. Xing, L. Shi, Y. Huang, and J. Peng, "A novel 3-D microcavity based on bragg fiber dual-tapers", IEEE Journal of Lightwave Technology, 27 (18): 4145-4150, 2009.

[55] W. Zhang, X. Feng, Y. Huang, and J. Peng, "Bi-directional dual-wavelength Brillouin lasing in a hybrid fiber ring cavity", Optics Communications, 282 (14): 2990-2994, 2009.

[56] Y. Wang, W. Zhang, Y. Huang, and J. Peng, "Stimulated Brillouin scattering slow light in high nonlinearity silica microstructure fiber", Optical Fiber Technology: Materials, Devices and Systems, 15 (1): 1-4, 2009.

[57] W. Zhang, Y. Wang, Y. Huang, and J. Peng, "Theoretical analysis of novel Brillouin scattering properties in photonic crystal fibers based on silica rod model", Acta Physica Sinica, 58 (3): 1731-1737, 2009.

[58] S. Zhang, W. Zhang, Q. Zhou, Y. Huang, and J. Peng, "Experimental Study on Preparation Efficiency of Microstructured-Fibre Based Heralded Single-Photon Source at 1.5??m", Chinese Physics Letters, 26 (3): 034206, 2009.

[59] *C. Zhang, Y. Huang, and X. Mao, K. Cui, Y. Huang, W. Zhang, and J. Peng, "Slow light by two-dimensional photonic crystal waveguides", Chinese Physics Letters, 26 (7):74213-74216, 2009.

[60] *X. Mao, Y. Huang, W. Zhang and J. Peng, Coupling between even- and odd-like modes in a single asymmetric photonic crystal waveguide, (to be published in Applied Physics Letters)

[61] *K. Cui, Y. Huang, G. Zhang, Y. Li, X. Tang, X. Mao, Q. Zhao, W. Zhang, and J. Peng, Temperature dependence of mini-stop band in double-slots photonic crystal waveguides, Applied Physics Letters. 95, 191901, 2009.

精选会议论文

[1] Y. Huang, T. Okuda, K. Shiba and T. Torikai, "High yield external optical feedback resistant partially-corrugated-waveguide laser diode for isolator-free LD modules", IEEE International Semiconductor Laser Conference, TuE44, 1998, Japan.

[2] Y. Huang, K. Shiba, Y. Muruya, N. Suzuki, and T. Okuda, "Isolator-free 2.5 Gb/s, 45 km transmission characteristics in partially corrugated waveguide laser diodes from -40 to 80C under -14 dB external optical feedback," OFC'99, WH6, 1999, U.S.A..

[3] Y. Huang, T. Okuda, K. Sato, Y. Muroya, and K. Kobayashi, "Feedback effect of mirror loss in ?/8 phase-shifted DFB-LDs", APCC/OECC’99, C6S4-127, 1999, China.

[4] Y.Huang, T. Okuda, K. Sato, Y. Muroya, T. Sasaki, and Kenich Kobayashi, "External reflection resistant and low chirp 1.55?m ?/8 phase-shift DFB-LDs for 2.5-Gb/s directly modulated isolator-free uncooled long-distance optical transponders", (Invited paper) Photonics Asia, SPIE vol. 4913, pp.19-26, 2002, China.

[5] *K. Cui, Y. Huang, X. Mao, W. Zhang, J. Peng, Optical gain of InGaAsP MQW with different photonic crystal waveguides, IPRM’2007, PA32, 5121.

[6] *X. Tang, Y. Huang, W. Zhang, J. Peng, Internal Quantum Efficiency Enhancement of Silicon Nanocrystals Using Doublelayer Au Film Surface-Plasmon Waveguide, IPRM’2007, PA33, 5111, Japan.

[7] *Y. Wang, W. Zhang, Y. Huang, and J. Peng, SBS Slow Light in High Nonlinearity Photonic Crystal Fiber, OFC,JWA13, 2007, USA.

[8] Y. Huang, F. Liu, Y. Rao, R. Wan, D. Qu, W. Zhang, and J. Peng, Low loss long range surface plasma polariton waveguides and their applications, (Invited Paper), IC-PlANTS, 2008, Japan.

[9] Y. Huang, X. Mao, K. C., C. Zhang, L. Cao, W. Zhang, and J. Peng, Passive and active performances of slab photonic crystal waveguides, (invited paper), International Nano-Optoelectronics Workshop, pp.32-33, 2008.

[10] Y. Huang, X. Tang, Y. Wang, X. Feng, K. Chen, W. Zhang, and J. Peng, Surface Plasmon Assisted Emission Enhancement for Silicon Nanocrystals, (invited paper), Nat. Conv. Rec. of Japan Soc. Appl Phys., 2p-ZN-2, 2008, Japan.

[11] *F. Liu, *R. Wan, *Y. Rao, Y. Huang, W. Zhang, and J. Peng, Polarization Splitter Based on Hybrid Coupler with Long Range Surface Plasmon Polariton and Dielectric Waveguide(s), OFC, OThG3, 2008.

[12] Q. Zhou, W. Zhang, S. Zhang, J. Cheng, Y. Huang, and J. Peng, 1.5 ?m Polarization Entangled Photon Pair Generation Based on Birefringence in Microstructure Fibers, Optical Fiber Communications Conference (Optical Society of America, 2009), paper OWD6.

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