个人简历
姓名:黄旭光
教研室名称:
职称:教授
办公地点:理4栋410
电子邮箱: huangxg@scnu.edu.cn
最后学位及授予单位:博士,中山大学
研究方向:微纳光子学、光纤通信与光电传感物联网技术
主讲课程:
本科生课程《无源光通信器件》、研究生课程《导波光学与器件》和《光纤无线通信与传感技术》以及创新班的《光学前沿探讨》部分课程。
科研项目:
曾主持或参与(级别)项目:(项目名称),研究编号:()
1. 国家自然科学基金面上项目《基于齿状结构的纳米表面等离子激元可控性与全光功能波》(6107703)(36万),(2011年1月至2013年12月) 负责人;
2. 国家科技支撑计划项目子课题《光纤铁路桥梁结构健康监测解调终端研发》(2011BAF06B02-3)(50万),(2011年4月至2013年12月) 负责人;
3. 广东省自然科学基金面上项目《新型金属-类光子晶体混合波导基础器件研究》,(2014A030313446)(10万)(2015年1月至2017年12月) 负责人;
4. 广东省部产学研项目《光纤电流传感系统研制》(2012B091100096),(2013年1月至2015年12月) (30万)负责人;
5. 广东省部产学研项目《输电线路盐密在线监测设备研究》(2013B090600042)(80万)(2014年1月至2016年12月) 子课题负责人;
6. 广东省高等学校科技创新项目《基于光电物联网的光纤传感技术研究》(2012KJCX0038),(2013年1月至2014年12月) 负责人;
7. 广州科技计划项目《光纤无线混合传感网基础技术研制》(11C42090778),(2012年1月至2013年12月) 负责人;
8. 广东省高等学校重点项目《基于表面光物理效应的全光控制》(2013CXZDA012),(50万)排名第2;
9. 广东省高新区发展引导专项计划项目《平面光波导芯片技术产业化》(2012年1月至2014年3月) 子课题负责人;
10. 华南师范大学2014年度质量工程建设项目《光纤通信与传感教学团队》,负责人。
发表论文(近5年):
2015年发表SCI论文:
1. .Zan Hui Chen, Qi Long Tan, Jieer Lao, Yao Liang and Xu Guang Huang,“Reconfigurable and tunable flat graphene photonic crystal circuits”,Nanoscale, 7, 10912–10917 (2015). (SCI一区,影响因子7.394).
2. Yin Chen and Xu Guang Huang, “A Linewidth-Tolerant Two-Stage CPE Using a New QPSK-Partitioning Approach and an Enhanced Maximum Likelihood Detection for 64-QAM Coherent Optical Systems”, JOURNAL OF LIGHTWAVE TECHNOLOGY, 33(18), SEPTEMBER, 3883-3889 (2015). (SCI二区,影响因子2.965).
3. Yin Chen, Xuguang Huang, “A simple three-stage carrier phase estimation algorithm for 16-QAM systems based on QPSK partitioning and maximum likelihood detection”, Optics Communications 342, 44–50 (2015).
2014年发表SCI论文:
4. Jieer Lao, Jin Tao, Qi Jie Wang, and Xu Guang Huang, “Tunable graphene-based plasmonic waveguides nano modulators and attenuators”, Laser & Photonics Reviews 8, No. 4, 569–574 (2014). (SCI一区,影响因子 9.313)
5. Yao Liang, Han Wen Wu, Bin Jie Huang and Xu Guang Huang, “Light beams with selective angular momentum generated by hybrid plasmonic waveguides”, Nanoscale 6(21): 12360-5 (2014). (SCI一区,影响因子6.739).
6. Yao Liang and Xuguang Huang, “Generation of two beams of light carrying spin and orbital angular momenta of opposite handedness”, OPTICS LETTERS 39(17), 5074-5077 (2014)
7. Wen Zhou, Xu Guang Huang, Qilong Tan, Yao Liang, Jieer Lao and Zanhui Chen, “Coherent-interference-induced transparency based on long-range air-hole assisted subwavelength waveguides”, J. Phys. D: Appl. Phys. 47 (2014) 475101
8. Ze Bing Zhong, Zhi Cheng Fu, Jian Dong Shi, Qi Long Tan, Wo Bin Huang, and Xu Guang Huang, “Measurement of modal birefringence in optical waveguides based on the Mach-Zehnder interferometer”, Review of Scientific Instruments 85, 053104 (2014)
9. Jiao-Yang Li, Xu-Guang Huang, Wei Xu, Dong-Rui Xiao, Ze-Bing Zhong, “A fiber-optic pH sensor based on relative Fresnel reflection technique and biocompatible coating”, Optical Fiber Technology 20, 28–31(2014).(SCI 1.187).
10. Yao Liang, Hanwen Wu, Wen Zhou, Xuguang Huang, “Optical performance of long-range air-gaps assisted subwavelength waveguides”, Optical Engineering 53(8), 087101-7 (2014).
11. Guangming Cheng, Banghong Guo*, Songhao Liu, and Xuguang Huang, “Novel wavelength division multiplex-radio over fiber-passive optical network architecture for multiple access points based on multitone generation and triple sextupling frequency”, Optical Engineering 53(1), 016108 (2014).
2013年发表SCI论文:
12. Qilong Tan, X.G. Huang, “A Plasmonic based Ultracompact Polarization Beam Splitter on Silicon-on-Insulator Waveguides”, Scientific Reports 3, 2206(2013)(SCI 5.078,Nature子刊)
13. Wen Zhou, X.G. Huang, “Long-range air-hole assisted subwavelength waveguides”, Nanotechnology, 24,235203 (2013), ( SCI 一区 3.842)
14. Wen Zhou, X.G. Huang, “Compact filters and demultiplexers based on long-range air-hole assisted subwavelength waveguides”, OPTICS EXPRESS, 21(23),28456-28468 (2013) (SCI 二区 3.546)
15. Wei Xu, X.G. Huang, “Simple Fiber-Optic Refractive Index Sensor Based On Fresnel Reflection and Optical Switch”, IEEE SENSORS JOURNAL 13(5) 1571-1574, (2013) (SCI)
16. W.J. Fang , X.G. Huang, “A full duplex radio-over-fiber transmission of OFDM signals at 60 GHz employing frequency quintupling optical up-conversion”, Optics Communications, 294 (2013) 118–122, (SCI 三区)
17. Wei Xu, X.G. Huang, “A simple fiber-optic humidity sensor based on extrinsic Fabry–Perot cavity constructed by cellulose acetate butyrate film”, Optical Fiber Technology, 19 (2013) 583–586 (SCI 四区 1.187)
18. W.J. Fang, X.G. Huang, “Transmission of Multi-bands Wired and Wireless OFDM Signals Using a Full Duplex DWDM-ROF System”, Optical Engineering, 52(1), 015003-1—7 (2013) (SCI 四区)
19. Xiao Min Zhang, X.G. Huang , “Duplex multiuser radio over fiber passive optical network system based on multitone generation and sextupling technique” Optical Engineering, 52(7),13-1--5 (2013) (SCI 四区)
20. Xuemei Jin, X.G. Huang, “An Extrinsic Fabry–Perot Optical Fiber Sensor Based on Nano-Magnetic Fluid”, Fiber and Integrated Optics 32:233–241,( 2013) (SCI)
21. W.J. Fang , X.G. Huang, “Transmission of 100 GHz w-band frequency MIMO-OFDM signals with 90 Gbps downstream and 30 Gbps upstream using radio over fiber system”, Microwave and Optical Technology Letters, 55(1), 93-99 (2013) (SCI 四区 0.585)
22. Jiao-Yang Li, X.G. Huang, “Integration of a micro Fabry-Perot cavity and a fiber Bragg grating sensor for simultaneous measurement of stress and temperature”, Microwave and Optical Technology Letters“, 55(10),2440–2444 (2013) (SCI 四区 0.585)
23. 何炜欣, 黄旭光, “光纤折射率传感用于壳聚糖脱乙酰度测定”, 高等学校化学学报, 34(2), 474-478 (2013).
24. 朱家胡, 黄旭光, “表面等离激元亚波长光波导滤波器研究进展”, 中国科学, 43(5): 608–620 (2013).
25. W Wang, H Y Meng*, X W Wu, W Wang, R Xiong, H C Xue, C H Tan and X G Huang, “A nonlinear polarization rotation-based linear cavity waveband switchable multi-wavelength fiber laser”, Laser Physics Letters, 10 (2013) 015104(SCI收录)
2012年发表SCI论文:
26. Jia Hu Zhu, Xu Guang Huang and Xian Mei, “A Laser Structure Based on Metal-Dielectric-Metal Plasmonic Nanocavity”, Plasmonics: 7(1) (2012), 93-98.
27. Jingshun Pan, Xuguang Huang, Yuming He, and Binjie Huang, "Fresnel-reflection-based fiber sensor for high-temperature measurement," Review of Scientific Instruments 83, 035004 (2012)
28. Luan Xiong Chen, Xu Guang Huang, Jiao Yang Li, "Simultaneous measurement of refractive index and temperature by integrating an external Fabry-Perot cavity with a fiber Bragg grating," Review of Scientific Instruments 83, 053113 (2012)
29. Jia Hu Zhu, Xu Guang Huang, Jin Tao, Xiao Ping Jin, Xian Mei, “Nanometeric plasmonic refractive index senor”, Optics Communications, 285 (2012) 3242–3245.
30. W.J. Fang; X.G. Huang; K. Yan, “Transmission of Wired and Wireless Signals Employing a Hybrid ROF-PON based on dual quadrupling-frequency,” IET Communications, 6(17) (2012), 2809–2815.
31. K. Yang X.G. Huang J.H. Zhu W.J. Fang, “Transmission of 60 GHz wired/wireless based on Full-duplex radio-over-fiber using dual sextupling frequency”, IET Communications, 6(17), 27 November 2012, 2900 – 2906.
32. Wei Jin Fang, Xu Guang Huang, Kai Yang, Xiao Min Zhang, “Full duplex dense-wavelength -division-multiplexing radio-over-fiber system transmission of 75-GHz W-band frequency multiple-input multiple-output orthogonal-frequency-division -multiplexing signals with 3 × 12 Gbps downstream and 6 Gbps upstream”, Optical Engineering 51(9), 095004 (2012)
33. Xusheng Yang, Xuguang Huang, Jinling Xie, Jiahu Zhu, and Guang Li, “INVESTIGATION ON TRANSMISSION CHARACTERISTICS OF 40 GB/s OPTICAL NETWORKS BASED ON DUOBINARYM ODULATION”, MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 54 (6), (2012), 1355.
34. ZHU Yun-Jin, HUANG Xu-Guang*, MEI Xian, “A Surface Plasmon Polariton Electro-Optic Switch Based on a Metal-Insulator-Metal Structure with a Strip Waveguide and Two Side-Coupled Cavities”, Chinese Physics Letters 29(6) (2012) 064214
35. Chunhua Tan, Weixin He, Hongyun Meng, Xuguang Huang, "A novel titration method based on fiber-optic refractive index sensing for the determination of deacetylation degree of chitosans," Polym. Bull. 69:189–197(2012) (SCI)
36. Chun Hua Tan, Wei Xin He, Hong Yun Meng, Xu Guang Huang, “A new method based on fiber-optic sensing for the determination of deacetylation degree of chitosans”, Carbohydrate Research 348 (2012) 64–68
37. Wei Wang, Hongyun Meng*, Xiaowei Wu, Wei Wang, Hongchao Xue, Chunhua Tan, and Xuguang Huang, “Three channel-spacing switchable multi-wavelength fiber laser with two segments of polarization maintain fiber”, IEEE Photonics Technology Letters, Vol. 24, No. 6, pp. 470-472, 2012(SCI收录)
38. Hongyun Meng, Xiaowei Wu, Wei Shen, and Xuguang Huang, “Polarization-Independent All-Fiber Quasi-Flat-Top Comb Filter Based on a Dual-Pass Mach-Zehnder Interferometer with High Birefringence Fiber in the Second Loop”, IEEE Photonics Technology Letters, Vol. 24, No. 3, pp. 206-208, 2012(SCI收录)
2011年发表SCI论文:
39. Luan Xiong Chen, Xu Guang Huang*, Jia Hu Zhu, Guang Can Li, and Sheng Lan, "Fiber magnetic-field sensor based on nanoparticle magnetic fluid and Fresnel reflection," Opt. Lett. 36, 2761-2763 (2011).
40. Jia Hu Zhu, Xu Guang Huang, Xian Mei, “Plasmonic Electro-Optical Switches Operating at Telecom Wavelengths”, Plasmonics, 6(3), 605-612 (2011)..
41. Xian Mei, Xu Guang Huang, Tao Jin, “A Sub-wavelength Electro-optic Switch Based on Plasmonic T-Shaped Waveguide”, Plasmonics, 6(4), 613-618 (2011).
42. Jia-Hu Zhu, Xu-Guang Huang, Wei Xu, and Luan Xiong Chen, “Plasmonic optical switches based on Mach-Zender interferometer”, Physics of Plasmas, 18 (7) , 072112 (2011).
43. Jia Hu Zhu, Xu Guang Huang*, Jin Tao and Xian Mei, "A nanoscale plasmonic long-wavelength cut-off filter", IEEE Transactions on Nanotechnology 10(4), 817 - 821 (2011) (IF 2.08)
44. Jia Hu Zhu, Xu Guang Huang*, Jin Tao and Xian Mei, "Improved models for plasmonic waveguide splitters and demultiplexers at the telecommunication wavelengths" IEEE Transactions on Nanotechnology, 10(5), 1166 – 1171 (2011).
45. Jia Hu Zhu, Qi Jie Wang, Ping Shum and Xu Guang Huang*, “A nano-plasmonic high-pass wavelength filter based on a metal-insulator-metal circuitous waveguide,” IEEE Transactions on Nanotechnology, 10(6), 1357 - 1361 (2011).
46. Jia Hu Zhu, Qi Jie Wang and Xu Guang Huang*, “A simple nanometeric plasmonic narrow-band filter structure based on metal-insulator-metal waveguide,” IEEE Transactions on Nanotechnology, 10(6), 1371 - 1376 (2011).
47. Jia Hu Zhu, Xu Guang Huang, Jin Tao, Jin Ling Xie, “A full-duplex radio-over-fiber system based on frequency decupling”, Optics Communications, 284 (10-11), (2011), 2480–2484.
48. Jia Hu Zhu, Xu Guang Huang* and Jin Ling Xi, “A full-duplex radio-over-fiber system based on dual quadrupling-frequency, ” Optics. Communication. 284 (3), 729-734 (2011).
49. Jia Hu Zhu, Xu Guang Huang*, Jin Tao, Xiao Ping Jin, Xian Mei and Yun Jin Zhu, “Integrated liquid crystal optical switch based on double teeth-shaped structure at telecom wavelengths”, Journal of Modern Optics, 58(1), 32–37 (2011).
50. Ji-Huan Chen, Xu-Guang Huang*, Wei-Xin He, Jin Tao, “A parallel-multipoint fiber-optic temperature sensor based on Fresnel reflection”, Optics & Laser Technology, 43 ( 8), 1424-1427 (2011).
51. ZHU Jia-Hu, HUANG Xu-Guang, TAO Jin, XIE Jin-Ling, “A Full-Duplex Radio-over-Fiber System Based on Frequency Twelvefold”, Chin. Phys. Lett. 28(2) , 024202 (2011).
52. ZHU Jia-Hu, HUANG Xu-Guang*, MEI Xian, “Double-Teeth-Shaped Plasmonic Waveguide Electro-Optical Switches”, Chin. Phys. Lett. 28(8) , 088501 (2011).
53. ZHU Jia-Hu, HUANG Xu-Guang*, MEI Xian, “High-Resolution Plasmonic Refractive-Index Sensor Based on a Metal-Insulator-Metal Structure”, Chin. Phys. Lett. 28(5) , 054205 (2011) .
54. Jia Hu Zhu, Xu Guang Huang*, “Optical Millimeter-Wave Generation Based on an External Modulator”, Microwave and Optical Technology Letters, 53(12), 2902–2907 (2011)
55. Hongyun Meng, Wei Shen, Guanbin Zhang, Xiaowei Wu, Wei Wang, Chunhua Tan, Xuguang Huang, “Michelson interferometer-based fiber-optic sensing of liquid refractive index”, Sensors and Actuators B, 160 (2011) 720-723