黄田野
教授,博导,湖北省人才计划
姓 别
男
出生年月
1984.11
民 族
汉
政治面貌
党员
学历
研究生
学位
博士
毕业院校
华中科技大学
职称
教授
联系方式:
邮箱:tianye_huang@163.com
办公室:教二楼229室
主要经历:
2016.01至今,中国地质大学,教授
2013.03-2015.12,新加坡南洋理工大学电子电气工程系,博士后研究员
2010.09-2011.12,加拿大McGill University,联合培养
2009.09-2012.08,华中科技大学光电国家实验室,博士
研究方向:
目前的研究兴趣是特种光纤器件以及微纳光子器件在高速信息处理和传感等领域的应用。主要包括:
● 光学频率梳产生机理与应用
● 特种光纤及其在光纤激光器中的应用
● 新型集成光电传感器的设计与应用
招生信息:
课题组欢迎勤于思考,致力于科学研究,热爱编程计算或动手实验的本科生和研究生加入。
Welcome foreign students with strong self-motivation.
学生培养:
· 2018级研究生谢苑,发表SCI论文2篇,获国家奖学金。
· 2017研究生黄攀、赵翔获“挑战杯”湖北省二等奖,国家三等奖
· 2017级研究生潘建行,发表SCI论文1篇,获国家奖学金。
· 2017级研究生赵翔,发表SCI论文2篇,获国家奖学金。
· 2017级研究生黄攀,发表SCI论文1篇,获校级科技论文报告会特等奖、国家奖学金,社会奖学金。
· 2016级研究生伍旭,发表SCI论文2篇,获国家奖学金、校级科技论文报告会一等奖、校级学术卓越奖,获南洋理工大学资助赴新加坡学术交流1年。
· 2016级研究生陈秉蔚,发表SCI论文1篇,获校级优秀硕士论文。
· 2016级研究生任凯旋,发表SCI论文1篇,获校级优秀硕士论文。
· 2014级本科生李仑,毕业设计相关工作以第一作者发表二区SCI论文1篇。
课题信息:
· 内河航运技术湖北省重点实验室开放基金,主持
· 航天科技基金,主持
· 湖北省自然科学基金面上项目,主持
· 武汉市科技局应用基础前沿项目,主持
· 航天科技集团XXX所合作项目,主持
· 湖北省科技“晨光计划”,主持
· 国家自然科学基金青年项目,主持
· 中国地质大学(武汉)摇篮计划,主持
· 中央高校专项经费,主持
· 新加坡Ministry of Education Tier2: Design and Fabrication of novel photonic crystal fiber-based devices for third-order parametric downconversion,Co-PI
· 新加坡A*STAR SERC Grant “Advanced Optics in Engineering” Program:Design and fabrication of cost effective mid-IR source by three photon generation,参与
· 国家高技术研究和发展项目:新型超大容量全光交换网络体系架构、关键技术、协议及性能评估方法研究,参与
· 加拿大自然科学与工程基金:下一代光网络关键技术,参与
部分相关学术论文:
[1] G. Xu, J. Yan, Z. Chen, T. Huang*, Z. Cheng, P. P. Shum and G. Brambilla, “Design of germanium-silicon carbide hybrid waveguides for mid-infrared third-order parametric conversion,” Opt. Commun., vol. 456, 2020.
[2] J. Pan, Z. Cheng, T. Huang*, C. Song, P. P. Shum, and G. Brambilla, “Fundamental and third harmonic mode coupling induced single soliton generation in Kerr microresonators,” IEEE Journal of Lightw. Technol., vol. 37, no.21, 2019.
[3] T. Huang*, G. Xu, J. Pan, Z. Cheng, P. P. Shum, and G. Brambilla, “Theoretical study of bicharacteristic waveguide for fundamental-mode phase-matched SHG from MIR to NIR,” Opt. Express, vol. 27, no. 11, 15236-25250, 2019
[4] T. Huang*, Q. Wei, Z. Wu, X. Wu, P. Huang, Z. Cheng, and P. P. Shum, “Ultra-flattened normal dispersion fiber for supercontinuum and dissipative soliton resonance generation at 2 μm,” IEEE Photonics Journal, vol. 11, no. 3, **, 2019.
[5] T. Huang*, Y. Xie, Y. Wu, Z. Cheng, S. Zeng, and P. P. Shum, “Compact polarization beam splitter assisted by subwavelength grating in triple-waveguide directional coupler,” Applied Optics, vol. 58, no. 9, 2264-2268, 2019.
[6] X. Zhang, Y. Wang, X. Zhao, T. Huang*, S. Zeng, and P. P. Shum, “Fano resonance based on long range surface phonon resonance in the mid-infrared region,” IEEE Photonics Journal, vol.11, no.2, **, 2019.
[7] L. Han, X. Zhao, T. Huang*, F. Ding, and C. Wu, “Comprehensive Study of Phase-Sensitive SPR Sensor Based on Metal-ITO Hybrid Multilayer,” Plasmonics, vol. 14, no. 6, 1743-1750, 2019.
[8] W. Zou, T. Huang, J. Yuan, D. Wang, X. Li, Z. Cheng, “Modified constellation reshaping method for PAPR reduction of PDM CO-OFDM based on a SLM algorithm,” Applied Optics, vol. 58, no. 7, 1800-1807, 2019
[9] Y. Xie, Z. Chen, Y. Wang, Y. Zhao, T. Huang*, Z. Cheng, “Bloch supermode interaction for high-performance polarization beam splitting,” Optical Engineering, vol. 59, no. 9, 095102, 2019.
[10] P. Huang, T. Huang*, S. Zeng, J. Pan, X. Wu, X. Zhao, Y. Wu, P. P. Shum and G. Brambilla, “Nonlinear gas sensing based on third harmonic generation in cascaded chalcogenide microfibers,” Journal of Optical Society of American B, vol. 36, no. 2, 300-305, 2019.
[11] X. Tu, S. Chen, C. Song, T. Huang* and L. J. Guo, “Ultrahigh Q polymer microring resonators for biosensing applications,” IEEE Photonics Journal, vol. 11, no. 2, **, 2019.
[12] T. Huang, Y. Wu, Y. Xie, and Z. Cheng, “A slot-waveguide-based polarization beam splitter assisted by epsilon-near-zero material,” Photonics and Nanostructures-Fundamentals and Applications, vol. 33, 42-47, 2019.
[13] T. Huang, S. Zeng, X. Zhao, Z. Cheng, and P. P. Shum, “Fano resonance enhanced surface plasmon resonance sensors operating in near-infrared,” Photonics, vol. 5, no. 3. 23, 2018.
[14] T. Huang*, J. Pan, Z. Cheng, C. Song, J. Wang, X. Shao, P. P. Shum, and G. Brambilla, “Photon-plasmon coupling for fundamental-mode phase-matched third harmonic and triplet photon generation,” IEEE Journal of Lightw. Technol., vol. 36, no. 18, 3892-3897, 2018.
[15] L. Han, H. Ding, T. Huang*, X. Wu, B. Chen, K. Ren, S. Fu, “Broadband optical reflection modulator in indium-tin-oxide-filled hybrid plasmonic waveguide with high modulation depth,” Plasmonics, vol. 13, no. 4, 1309-1314, 2018.
[16] L. Li. T. Huang*, X. Zhao, X. Wu, and Z. Cheng, “Highly sensitive SPR sensor based on hybrid coupling between plasmon and photonic mode,” IEEE Photon. Technol. Lett., vol. 30, no. 15, 1364-1367, 2018.
[17] X. Zhao, T. Huang*, P. P. Shum, X. Wu, P. Huang, J. Pan, Y. Wu, and Z. Cheng, “Sensitivity enhancement in surface plasmon resonance biochemical sensor based on transition metal dichalcogenides/graphene heterostructure,” Sensors, vol. 18, no. 7, 2056, 2018.
[18] X. Wu, P. Huang, T. Huang*, Z. Wu, Z. Cheng, B. Chen, K. Ren, and S. Fu, “Tunable all-optical actively mode-locked fiber laser at 2 mu m based on tellurite photonic crystal fiber,” Laser Phys. Lett., vol. 15, no. 6, 065103, 2018.
[19] K. Ren, X. Li, T. Huang*, Z. Cheng, B. Chen, X. Wu, S. Fu, P .P. Shum, “A time and frequency synchronization method for CO-OFDM based on CMA equalizers,” Optics Commun., vol. 416, no. 1, 166-171, 2018.
[20] C. Wu, H. Ding, T. Huang*, X. Wu, B. Chen, K. Ren, S. Fu, “Plasmon-induced transparency and refractive index sensing in side-coupled stub-hexagon resonators,” Plasmonics, vol. 13, no. 1, 251-257, 2018.
[21] C. Song, T. Jin, R. Yanm W. Qi, T. Huang, H. Ding, S. Tan, N. Nguyen, L. Xi, “Opto-acousto-fluidic microscopy for three-dimensional label-free detection of droplets and cells in microchannels,” Lab on a Chip, vol. 18, no. 9, 1292-1297, 2018.
[22] T. Huang*, P. Huang, Z. Cheng, J. Liao, X. Wu, J. Pan, “Design and analysis of a hexagonal tellurite photonic crystal fiber with broadband ultra-flattened dispersion in mid-IR,” Optik, vol. 167, 144-149, 2018.
[23] K. Ren, X. Li, T. Huang*, Z. Cheng, B. Chen, X. Wu, S. Fu, P .P. Shum, “A time and frequency synchronization method for CO-OFDM based on CMA equalizers,” Optics Communications, vol. 416, no. 1, 166-171, 2018.
[24] J. Liao, Y. Xie, X. Wang, D. Li, and T. Huang*, “Ultra-flattened nearly-zero dispersion and ultrahigh nonlinear slot silicon photonic crystal fibers with ultrahigh birefringence,” Photonics and Nanostructures-Fundamentals and Applications, vol. 25, 19-24, 2017.
[25] C. Zhuo, and T. Huang*, “Tunable spectral splitting in nanoscale graphene waveguide with coupled resonators,” Journal of Nanophotonics, vol. 11, no. 3, 036013, 2017.
[26] X. Wu, Z. Wu, T. Huang*, B. Chen, K. Ren, and S. Fu, “All-optical actively mode-locked fiber laser at 2-μm based on interband modulation,” IEEE Photonics Journal, vol. 9, no. 5, **, 2017.
[27] T. Huang. “Highly Sensitive SPR Sensor Based on D-shaped Photonic Crystal Fiber Coated with Indium Tin Oxide at Near-Infrared Wavelength,” Plasmonics, vol. 12, no. 3, 583-588, 2017.
[28] N. Zhang, D. Hu, P. Shum, Z. Wu, K. Li, T. Huang, and L. Wei, “Design and analysis of surface plasmon resonance sensor based on high-birefringent microstructured optical fiber,” Journal of Optics, vol. 18, no. 6, 065005, 2016.
[29] T. Wu, P. Shum, Y. Sun, T. Huang, and L. Wei, “Third Harmonic Generation with the Effect of Nonlinear Loss,” Journal of Lightwave Technology, vol. 34, no. 4, 1274-1280, 2016.
[30] T. Huang, Z. Pan, M. Zhang, and S. Fu, “Design of reconfigurable on-chip mode filters based on phase transition in vanadium dioxide,” Applied Phys. Express, vol. 9, no. 11, 112201, 2016.
[31] T. Huang, “TE-pass Polarizer Based on Epsilon-near-zero Material Embedded in a Slot Waveguide” IEEE Photon. Technol. Lett., vol. 28, no. 20, 2145-2148, 2016.
[32] T. Huang, X. Shao, P. P. Shum, T. Lee, T. Wu, Z. Wu, Y. Sun, H. Q. Lam, J. Zhang, and G. Brambilla, “Internal asymmetric plasmonic slot waveguide for third harmonic generation with large fabrication tolerance,” Plasmonics, vol. 11, no. 6, 1451-1459, 2016.
[33] T. Huang, P. M. Tagne, and S. Fu, “Efficient second harmonic generation in internal asymmetric plasmonic slot waveguide,” Opt. Express, vol. 24, no. 9, 9706-9714, 2016.
[34] J. Liao, and T. Huang, “Highly nonlinear photonic crystal fiber with ultrahigh birefringence using a nano-scale slot core,” Opt. Fiber Technol., vol. 22, 107-112, 2015.
[35] M. Khudus, T. Lee, T. Huang, X. Shao, P. Shum, and G. Brambilla, “Harmonic Generation Via chi(3) Intermodal Phase Matching in Microfibers,” Fiber and Integrated Optics, vol. 34, no. 1-2, 53-65, 2015.
[36] M. A. Khudus, T. Lee, T. Huang, X. Shao, P. P. Shum, and G. Brambilla, “Harmonic gernation via χ3 process in microfiber,” Fiber and Integrated Optics, vol. 34, no. 1, 53-65, 2015.
[37] T. Huang, P. P. Shum, X. Shao, T. Lee, Z. Wu, H. Li, M. Zhang, X. Q. Dinh, and G. Brambilla, “Coupling-length phase matching for efficient third harmonic generation based on parallel coupled waveguides,” Opt. Lett., vol. 40, no. 6, 894-897, 2015.
[38] T. Huang, X. Li, P. P. Shum, Q. Wang, X. Shao, L. Wang, H. Li, Z. Wu, and X. Dong, “All-fiber multiwavelength thulium-doped laser assisted by four-wave mixing in highly Germania-doped fiber” Opt. Express, vol. 23, no. 1, 340-348, 2015.
[39] H. Li, T. Huang, S. Fu, K. Oh, P. P. Shum, and D. Liu, “Single-longitudinal-mode multi-wavelength fiber laser with independent tuning of channel numbers and wavelength spacing,” Apply Phys. B, vol. 118, no.1, 23-28, 2014.
[40] T. Huang, S. Fu, C. Ke, P. P. Shum, and D. Liu, “Characterization of fiber Bragg grating inscribed in few-mode silica-germanate fiber,” IEEE Photonics Technology Letters, vol. 26, no. 19, 1908-1911, 2014.
[41] T. Huang, X. Shao, Z. Wu, T. Lee, T. Wu, Y. Sun, J. Zhang, Q. H. Lam, G. Brambilla, and P. P. Shum, “Efficient Third-Harmonic Generation From 2 μm in Asymmetric Plasmonic Slot Waveguide,” IEEE Photonics Journal, vol. 6, no. 3, **, 2014.
[42] T. Huang, J. Liao, S. Fu, M. Tang, P. P. Shum and D. Liu, “Slot spiral silicon photonic crystal fiber with property of both high birefringence and high nonlinearity,” IEEE Photonics Journal, vol. 6, no. 3, **, 2014.
[43] T. Huang, X. Shao, Z. Wu, Y. Sun, J. Zhang, H. Q. Lam, J. Hu, and P. Shum, “A sensitivity enhanced temperature sensor based on highly Germania-doped few-mode fiber,” Optics Communications, vol. 325, 53-57, 2014.
[44] H. Li, T. Huang*, C. Ke, S. Fu, P. Shum, and D. Liu, “Photonic generation of frequency-quadrupled microwave signal with tunable phase shift,” IEEE Photonics Technology Letters, vol. 26, no. 3, 220-223, 2013.
[45] T. Huang, X. Shao, Z. Wu, T. Lee, Y. Sun, H. Q. Lam, J. Zhang, G. Brambilla, and P. Shum, “Efficient one-third harmonic generation in highly Germania-doped fibers enhanced by pump attenuation," Optics Express, vol. 21, no. 23, 28404-28413, 2013.
[46] T. Huang, S. Fu, J. Li, L. R. Chen, M. Tang, P. Shum, and D. Liu, “Reconfigurable UWB pulse generator based on pulse shaping in a nonlinear optical loop mirror and differential detection,” Optics Express vol. 21, no. 5, 6401-6408, 2013.
[47] J. Li, T. Huang, L. R. Chen, “A comprehensive study of actively mode-locked fiber optical parametric oscillators for high-speed pulse generation,” IEEE J. Lightw. Technol. vol. 31, no. 7, 1120-1131, 2013.
[48] T. Huang, S. Fu, J. Sun, J. Li, and L. R. Chen, "Comparison of nonlinear fiber-based approaches for all-optical clock recovery at 40 Gb/s," Optics Communications, vol. 298, 213-221, 2013.
[49] T. Huang, J. Sun, J. Li, and L. R. Chen, “40 Gb/s All-optical Clock Recovery Based on an Mode-Locked Semiconductor Fiber Laser Using Nonlinear Polarization Rotation,” IEEE Photonics Technology Letters, vol. 24, no. 8, 682-684 2012.
[50] T. Huang, J. Sun, “NRZ to Manchester Code Conversion Based on Nonlinear Optical Fiber Loop Mirror,” Optics Communications, vol. 285, no.18, 3524-3528 2012.
[51] T. Huang, J. Li, J. Sun, and L. R. Chen, "All-optical UWB signal generation and multicasting using a nonlinear optical loop mirror," Optics Express, vol. 19, no. 17, 15885-15890, 2011.
[52] T. Huang, J. Li, J. Sun, and L. R. Chen, "Photonic generation of UWB pulses using a nonlinear optical loop mirror and its distribution over a fiber link," IEEE Photonics Technology Letters, vol. 23, no. 17, 1255-1257, 2011.
[53] M. N. Sakib, T. Huang, W. J. Gross, and O. Liboiron-Ladouceur, “Low-Density Parity-Check Coding in Ultra-Wideband-Over-Fiber Systems,” IEEE Photonics Technology Letters, vol. 23, no. 20, 1493-1495, 2011.
[54] J. Li, T. Huang, and L. R. Chen, "Detailed analysis of all-optical clock recovery at 10 Gb/s based on a fiber optical parametric oscillator," IEEE Journal of Selected Topics in Quantum Electronics, Issue on Nonlinear Optical Signal Processing, vol.18, no. 2, 701-708, 2011.
[55] J. Li, T. Huang, and L. R. Chen, "Rational harmonic mode-locking of a fiber optical parametric oscillator at 30 GHz," IEEE Photonics Journal, vol. 3, no. 3, 468-475, 2011.
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中国地质大学(武汉)机械与电子信息学院导师教师师资介绍简介-黄田野
本站小编 Free考研考试/2021-07-31
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严彬,电信系老师。本科,博士均毕业于武汉大学电子信息学院。曾在企业工作几年。承担电磁场与电磁波,数据结构,电工等教学工作。曾参与高频地波雷达,探地雷达,无线通信,移动通信等领域科研项目研究,发表论文十余篇,以第一作者身份EI检索4篇。主持射频微波实验室建设。 ...中国地质大学武汉师资导师 本站小编 Free考研考试 2021-07-31中国地质大学(武汉)机械与电子信息学院导师教师师资介绍简介-吴志超
吴志超性别:男出生年月:1992.8民族:汉学历:研究生学位:博士毕业院校:华中科技大学职称:副教授政治面貌:中共党员邮箱:wuzhichao@cug.edu.cn办公室:教二楼609主要经历2019.7至今:中国地质大学,机械与电子信息学院,副教授2017.12-2018.12:英国南安普顿大学, ...中国地质大学武汉师资导师 本站小编 Free考研考试 2021-07-31中国地质大学(武汉)机械与电子信息学院导师教师师资介绍简介-张祥莉
张祥莉中国地质大学(武汉),副教授,机电学院电信系教师.1977年8月,祖籍河北邢台。联系电话:**;邮箱:@qq.com;zhangxiangli@cug.edu.cn基本情况研究方向复杂通信系统信号处理技术;卫星导航软件接收机、中高频无线通信系统接收机设计。主要讲授课程基础课:模拟电子技术基础专 ...中国地质大学武汉师资导师 本站小编 Free考研考试 2021-07-31