个人简述:
黄权东,博士,硕士研究生导师,IEEE Senior Member, 广东工业大学“青年百人A计划”特聘副教授。主要从事集成光子学器件与光纤器件在光通信方面的应用。
学科领域:
科学学位:信息与通信工程(0810)、光学工程(0803)
专业学位:光学工程(0803)
教育背景:
2015.09-2019.07 香港城市大学电子工程系 集成光电子器件 博士
2009.09-2015.07 深圳大学电子科学与技术学院 本科、硕士
工作经历:
2019.07-2021.07 香港城市大学电机工程系 集成光电子器件 博士后研究员
2019.01-2019.07 香港城市大学深圳研究院产学研究中心 副研究员
2018.01-2018.05 Baylor Research and Innovation Collaborative and Department of Physics, Baylor University. Visiting Scientist
学术兼职:
Photonic Research, IEEE Journal of Lightwave Technology, Optics Letters, Optics Express, IEEE Photonic Journal 等期刊审稿人
主要荣誉:
IEEE Senior Member award 2023.
Best Poster Paper Award in IEEE ICOCN 2022, Shenzhen China
Best paper award in the ACP conference 2017, Guangzhou, China
Best research award in the IET conference 2017, Hong Kong SAR, China
主要论文:
1. Q. Huang, J. Zhang, K. Peng, J. Ran, Z. Zheng, Z. Qiu, Q. Zhang, M. Chen, Q. Chen, X. Zhou, O. Xu, Co-planar arbitrary ratio optical power splitter based on cascaded hybrid-core vertical directional couplers for arbitrary guide modes, Optics & Laser Technology 174, 110590, 2024.
2. Q. Huang, J. Zhang, L. Zhong, Z. Zheng, J. Li, and O. Xu, Three-dimensional mode multiplexer based on adiabatic-tapered waveguides forming vertical directional couplers over C + L band and beyond, Optics Letters 48 (4), 1044-1047, 2023.
3. L. Zhong, Q. Huang, J. Zhang, Z. Zheng, J. Li, O. Xu, Reconfigurable ultra-broadband mode converter based on a two-mode fiber with pressure-loaded phase-shifted long-period alloyed waveguide grating, Optics Express 31 (5), 8286-8295, 2023.
4. Q. Huang, X. Wang, J. Dong, Z. Zheng, O. Xu, S. Fu, D. Peng, J. Li, and Y. Qin, “Ultra-broadband LP11 mode converter with high purity based on long-period fiber grating and an integrated Y-junction,” Optics Express 30 (8), 12751-12759, 2022.
5. Q. Huang, L. Zhong, J. Dong, O. Xu, Z. Zheng, T. Huang, J. Li, M. Xiang, S. Fu, and Y. Qin, “All-optical light manipulation based on graphene-embedded side-polished fiber,” Optics Letters 47 (6), 1478-1481, 2022.
6. S. Sun, Y. Che, M. Zhu, T. Lian, X. Sun, X. Wang, Q. Huang, and D. Zhang, “Mode-insensitive 3-dB power splitter based on multimode-interference coupler,” Optics & Laser Technology 159, 109017, 2023.
7. L. Jiang, Q. Huang, K. S. Chiang, “Low-power all-optical switch based on a graphene-buried polymer waveguide Mach-Zehnder interferometer,” Optics Express 30 (5), 6786-6797, 2022.
8. Q. Huang, and K. S. Chiang, “Polarization-Insensitive Ultra-broadband Mode Filter Based on 3D Graphene Structure Buried in Optical Waveguide,” Optica 7(7), 744-745, 2020.
9. Q. Huang, I. Ghimire, J. Yang, N. Fleer, K. S. Chiang, Y. Wang, S. Gao, P. Wang, S. Banerjee, H. W. Lee, “Optical modulation in hybrid anti-resonant hollow-core fiber infiltrated with vanadium dioxide phase change nanocrystals,” Optics Letters 45(15), 4240-4243, 2020.
10. W. Wang, J. Wu, K. Chen, Q. Huang, J. Luo, and K. S. Chiang, “Graphene electrodes for electric poling of electro-optic polymer films,” Optics Letters 45(8), 2383-2386, 2020.
11. Q. Huang, and K. S. Chiang, “High-order-mode-pass mode (de)multiplexer with a hybrid-core vertical directional coupler,” Journal of Lightwave Technology, 37(16) 3932–3938, 2019.
12. Q. Huang, W. Wang, W. Jin, and K. S. Chiang, “Ultra-broadband mode-filter based on phase-shifted long-period grating,” IEEE Photonic Technology Letter, 31(13), 1052-1055, 2019.
13. Q. Huang, Y. Wu, W. Jin, and K. S. Chiang, “Mode multiplexer with cascaded vertical asymmetric waveguide directional couplers,” Journal of Lightwave Technology 36(14), 2903-2911, 2018.
14. Q. Huang, K. S. Chiang and, W. Jin, “Thermo-optically controlled vertical waveguide directional couplers for mode-selective switching,” IEEE Photon. Journal, 10(6), Art. no. 6602714, 2018.
15. Q. Huang, W. Jin, and K. S. Chiang, “Broadband mode switch based on three-dimensional waveguide Mach–Zehnder interferometer,” Optics Letters 42(23), 4877-4880, 2017.
16. Q. Huang, Y. Yu, X. Li, X. Chen, Y. Zhang, W. Zhou, and C. Du, “Micro-bending vector sensor based on six-air-hole grapefruit microstructure fiber using lateral offset splicing,” Optics Express 23, 3010-3019,2015.
17. Q. Huang, Y. Yu, S. Ruan, X. Li, X. Chen, Y. Zhang, W. Zhou, and C. Du, “In-Fiber Grating Fabricated by Femtosecond Laser Direct Writing for Strain Sensing,” IEEE Photonics Technology Letters 27, 1216-1219, 2015.
18. Q. Huang, Y. Yu, Z. Ou, X, Chen, J. Wang, P. Yan, and C. Du, “Refractive Index and Strain Sensitivities of a Long Period Fiber Grating,” Photonic Sensors 4, 92-96, 2014.
19. Y. Yu, Q. Huang, X. Li, X. Chen, C. Du, “An in-line fiber-optic modal interferometer for simultaneous measurement of twist and ambient temperature,” Sensing and Bio-Sensing Research 2, 38-42, 2014.
20. Y. Yu, X. Chen, Q. Huang, C. Du, S. Ruan, H. Wei, “Enhancing the pressure sensitivity of a Fabry–Perot interferometer using a simplified hollow-core photonic crystal fiber with a microchannel,” Applied Physics B 120, 461–467, 2015.
21. Y. Yu, W. Zhou, J. Ma, S. Ruan, Y. Zhang, Q. Huang, X. Chen, “High-Temperature Sensor Based on 45° Tilted Fiber End Fabricated by Femtosecond Laser,” IEEE Photonics Technology Letters 28, 653 - 656, 2016.
22. Z. Ou, Y. Yu, P. Yan, J. Wang, Q. Huang, X. Chen, C. Du, and H. Wei, "Ambient refractive index-independent bending vector sensor based on seven-core photonic crystal fiber using lateral offset splicing," Optics Express 21, 23812-23821, 2013.
23. L. Zhong, Q. Huang, O. Xu, Y. Qin, “All-Optical Three-Mode Switch Based on Graphene-Embedded Vertical Directional Couplers,” ICOCN 2022. (Best Poster Paper Award)
24. L. Jiang, Q. Huang, K. S. Chiang, “Graphene-Buried Polymer Waveguide Mach-Zehnder Interferometer for Low-Power All-Optical Switching,” OECC 2021.
25. Q. Huang, and K. S. Chiang, “Polarization-Insensitive Mode Filtering With L-Shaped Graphene Structure Embedded in Polymer Waveguide” CLEO-PR 2020, Australia.
26. Q. Huang, Y. Wu, W. Jin, and K. S. Chiang, “Broadband Mode Router Based on Three-Dimensional Mach-Zehnder Interferometer and Waveguide Branches,” CLEO, 2018, United State.
27. Q. Huang, W. Wang, W. Jin, and K. S. Chiang, “Broadband filtering of the fundamental mode of a few-mode waveguide with a phase-shifted long-period grating,” CLEO-PR, 2018, Hong Kong SAR, China.
28. Q. Huang, K. S. Chiang and, W. Jin, “Thermo-optic Switchable Mode Multiplexer Based on Cascaded Vertical Waveguide Directional Couplers,” OECC, 2017, Singapore.
29. Q. Huang, Y. Wu, W. Jin, and K. S. Chiang, “Six-mode multiplexer with cascaded vertical asymmetric waveguide directional couplers,” ACP, 2017, Guangzhou, China. (Best Paper Award)
30. Q. Huang, Y. Wu, W. Jin, and K. S. Chiang, “Five-mode multiplexer based on cascaded vertical directional couplers,” IPC, 2016, United State.
31. Q. Huang, Y. Yu, Z. Ou, X, Chen, J. Wang, P. Yan, and C. Du, “Twist characteristic of long period fiber grating in all-solid photonic crystal fiber,” POEM 2014.
知识产权:
1. 黄权东,钟立熙,许鸥,秦玉文, 一种定向耦合器、模式相关损耗补偿器件及系统和方法, 申请号:202210461659.1,2022.
2. 黄权东,钟立熙,许鸥,秦玉文, 一种用于平面光波导扇入扇出的复用器件和使用方法, 申请号:202211049048.2,2022.
科研项目:
广东工业大学“青年百人A计划”科研启动金,主持;
国家自然科学基金青年项目,主持
教学活动:
本科生授课课程:《传感器技术及应用》、《专业英语》
研究生授课课程:《微纳光电器件技术》
我的团队:
隶属于先进光子技术研究院,团队专注于光纤通信、光纤传感、保密通信等方面的研究工作。
研究生培养:
本课题研究方向为集成光电器件(例如:模分复用器、调制器、光开关)、光纤器件(例如:模式转换器、传感器)及二维材料功能性器件,理论与应用结合较为紧密,技能要求较为综合。培养方案包括:理论知识——集成光学、高等光学、电磁场与电磁波等;软件使用技能——COMSOL、Ansys Lumerical FDTD、Ansys HFSS、Origin等;编程技能——Matlab;实验技能——光刻技术、光电器件测试等;文献技能——文献调研、英文论文写作。对口就业岗位包括:攻读国内外知名大学博士研究生、光学工程师、测试工程师等。
