陈海良
  • 硕士生导师
  • 职 称 : 副研究员(自然科学)
  • 单 位 : 理学院
学位 : 博士
学历 : 博士研究生毕业
出生年月 : 1980-10
办公地点 : 燕山大学理学院425
毕业院校 : 燕山大学
电子信箱 :
研究方向
  • [1].特种光纤及其功能器件
  • [2].微结构光纤,传感器,偏振滤波器,偏振分束器
社会兼职
  • [1]. OSA会员,IEEE 会员

个人简介

        陈海良,博士,副研究员,硕士生导师。目前在燕山大学理学院工作。主要从事功能材料填充微结构光纤光子器件方面的研究工作,致力于获得具有高性能及在特种条件下工作的光学器件。


科研项目

1.国家自然科学基金,磁流体选择填充微结构光纤的设计、制备及性能研究,主持。

2.河北省自然科学基金,各向异性向列相液晶的选择填充对光子晶体光纤传输特性调控机理研究,主持。

3.秦皇岛市科学技术研究与发展计划,非硅基多芯光子晶体光纤传输特性研究,主持。


学术兼职

IEEE 会员、OSA会员


教育经历

博士研究生. 凝聚态物理 (Sep. 2012-Jun. 2016) 燕山大学,理学院

硕士研究生 凝聚态物理(Sep. 2007-Jun. 2010) 燕山大学,理学院


学术著作

2019

1.     Ma, M., Chen, H.*, Li, S., Jing, X., Zhang, W., Liu, Y., & Zhu, E. (2019). Highly sensitive temperature sensor based on Sagnac interferometer with liquid crystal photonic crystal fibers. Optik, 179, 665-671.

2.     Wang, Y., Li, S., Chen, H., Li, J., Shi, M., Zhang, S., & Zhang, Z. (2019). Rectangular lattice photonic crystal fiber with simultaneous polarization filtering at communication wavelengths of 1310 nm and 1550 nm. Photonics and Nanostructures-Fundamentals and Applications, 33, 36-41.

2018

1.     Liu, Y., Chen, H.*, Li, S., & Ma, M. (2018). Surface plasmon resonance induced tunable ultra-wideband polarization filters based on gold film coated photonic crystal fibers. Optics & Laser Technology, 107, 174-179.

2.    Zhang, W., Chen, H.*, Liu, Y., Ma, M., & Li, S. (2018). Analysis of a magnetic field sensor based on photonic crystal fiber selectively infiltrated with magnetic fluids. Optical Fiber Technology, 46, 43-47.

3.    Liu, Y., Chen, H.*, Ma, M., Zhang, W., Wang, Y., & Li, S. (2018). Tunable ultra-broadband polarization filter based on three-core resonance of the fluid-infiltrated and gold-coated photonic crystal fiber. Journal of Physics D: Applied Physics, 51(12), 125101.

4.    Liu, Y., Li, S., Chen, H., Li, J., & Zhang, W. (2018). High-sensitivity refractive index sensor with tunable detection range based on dual-core resonance effect in gold-coated photonic crystal fibers. Journal of Physics D: Applied Physics, 52(5), 055106.

5.    Min, S., Li, S., & Chen, H. (2018). A high-sensitivity temperature sensor based on sagnac interferometer employing photonic crystal fiber fully filled with ethanol. Applied Physics B, 124(6), 94.

6.    Qiang, L., Li, S. G., & Chen, H. (2018). Enhanced sensitivity of temperature sensor by a pcf with a defect core based on sagnac interferometer. Sensors & Actuators B Chemical, 254, 636-641.

2017

1.     刘英超, 陈海良*, 李曙光, 刘强, & 李建设. (2017). Surface plasmon resonance-induced tunable polarization filters based on nanoscale gold film-coated photonic crystal fibers. Chinese Physics B, 26(10), 104211.

2.     Ma, M., Li, S., Jing, X., & Chen, H.* (2017). Refractive indices of liquid crystal E7 depending on temperature and wavelengths. Optical Engineering, 56(11), 117109.

3.     Min, S., Li, S., Chen, H., Wang, G., & Zhao, Y. (2017). Surface plasmon resonance effect induced tunable polarization filter based on gold film selectively coated photonic crystal fiber. Optics Communications, 396, 257-260.

4.     Qiang, L., Li, S. G., Li, J., & Chen, H. (2017). Ultrashort and high-sensitivity refractive index sensor based on dual-core photonic crystal fiber. Optical Engineering, 56(3), 037107.

5.     Li, J., Li, S., Zhao, Y., Li, H., Zhou, G., & Chen, H., et al. (2017). Soliton and four-wave mixing effects induced by the third-order dispersion in a photonic crystal fiber with femtosecond pulses pumping at normal-dispersion regime. IEEE Photonics Journal, 7(5), 1-11.

6.     Li, J., Li, S., Gu, G., Hui, L., Qiang, L., & Fan, Z., et al. (2017). A novel method based on digital image processing technique and finite element method for rapidly modeling optical properties of actual microstructured optical fibers. IEEE Photonics Journal, 8(6), 1-14.

2016

1.     Chen, H., Li, S., Ma, M., Liu, Y., Min, S., & Qiang, L., et al. (2016). Filtering characteristics and applications of photonic crystal fibers being selectively infiltrated with one aluminum rod. Journal of Lightwave Technology, 34(21), 4972-4980.

2.     Chen, H., Li, S., Ma, M., Li, J., Fan, Z., & Shi, M. (2016). Surface plasmon induced polarization filter based on Au wires and liquid crystal infiltrated photonic crystal fibers. Plasmonics, 11(2), 459-464.

3.     Wang, X. , Li, S. , Chen, H. , Wang, G. , & Zhao, Y. . (2016). Polarization splitter based on dual-core photonic crystal fiber with octagonal lattice. Optical & Quantum Electronics, 48(4), 271.

4.     Wang, X., Li, S., Chen, H., Qiang, L., Wang, G., & Zhao, Y. (2016). Compatibility of temperature sensor and polarization filter based on au film and glycerin selectively infilling photonic crystal fibers. Plasmonics, 11(5), 1-7.

5.     Li, H., Li, S., Chen, H., Li, J., An, G., & Zi, J. (2016). A polarization filter based on photonic crystal fiber with asymmetry around gold-coated holes. Plasmonics, 11(1), 103-108.

6.     Zi, J., Li, S., Chen, H., Li, J., & Hui, L. (2016). Photonic crystal fiber polarization filter based on surface plasmon polaritons. Plasmonics, 11(1), 65-69.

7.     Qiang, L., Li, S., Li, J., Chen, H., Fan, Z., & An, G., et al. (2016). Photonic crystal fiber polarization filter based on coupling between core mode and spp mode. Plasmonics, 11(3), 857-863.

8.     Fan, Z., Li, S., Qiang, L., Chen, H., & Wang, X. (2016). Plasmonic broadband polarization splitter based on dual-core photonic crystal fiber with elliptical metallic nanowires. Plasmonics, 11(6), 1-8.

9.     Wang, G., Li, S., An, G., Wang, X., Zhao, Y., & Wan, Z., et al. (2016). Highly sensitive d-shaped photonic crystal fiber biological sensors based on surface plasmon resonance. Optical & Quantum Electronics, 48(1), 46.

10.  Wang, G., Li, S., Wang, X., Zhao, Y., Qiang, L., & Zi, J., et al. (2016). A kind of broadband polarization filter based on photonic crystal fiber with nanoscale gold film. Plasmonics, 12(2), 1-6.

11.  王文静, 丁喜峰, 孙鑫, 朱二旷, 李兴元, & 张红梅等. (2016). 闪烁体y_2sio_5:ce的发光特性. 光谱学与光谱分析, 36(8), 2399-2404.

2015

1.     Chen, H., Li, S., An, G., Li, J., Fan, Z., & Han, Y. (2015). Polarization splitter based on d-shaped dual-core photonic crystal fibers with gold film. Plasmonics, 10(1), 57-61.

2.     Chen, H., Li, S., Ma, M., Fan, Z., & Wu, Y. (2015). Ultrabroad bandwidth polarization filter based on d-shaped photonic crystal fibers with gold film. Plasmonics, 10(5), 1-4.

3.     Chen, H., Li, S., Li, J., & Fan, Z. (2015). Magnetic field sensor based on magnetic fluid selectively infilling photonic crystal fibers. IEEE Photonics Technology Letters, 27(7), 717-720.

4.     Liu, Q. , Li, S. , Chen, H. , Li, J. , & Fan, Z. . (2015). High-sensitivity plasmonic temperature sensor based on photonic crystal fiber coated with nanoscale gold film. Appl. Phys. Express, 8(4).

5.     Qiang, L., Li, S., Chen, H., Fan, Z., & Li, J. (2015). Photonic crystal fiber temperature sensor based on coupling between liquid-core mode and defect mode. IEEE Photonics Journal, 7(2), 1-9.

6.     Qiang, L., Li, S., & Chen, H. (2015). Two kinds of polarization filter based on photonic crystal fiber with nanoscale gold film. IEEE Photonics Journal, 7(1), 1-11.

7.     Fan, Z., Li, S., Chen, H., Liu, Q., Zhang, W., & An, G., et al. (2015). Numerical analysis of polarization filter characteristics of d-shaped photonic crystal fiber based on surface plasmon resonance. Plasmonics, 10(3), 675-680.

8.     Fan, Z., Li, S., Qiang, L., An, G., Chen, H., & Li, J., et al. (2015). High sensitivity of refractive index sensor based on analyte-filled photonic crystal fiber with surface plasmon resonance. IEEE Photonics Journal, 7(3), 1-9.

2014

1.     Chen, H. L., Li, S. G., Fan, Z. K., An, G. W., Li, J. S., & Han, Y. (2014). A novel polarization splitter based on dual-core photonic crystal fiber with a liquid crystal modulation core. IEEE Photonics Journal, 6(4), 1-9.

2.     Chen, H., Li, S., Li, J., Ying, H., & Wu, Y. (2014). High sensitivity of temperature sensor based on ultracompact photonics crystal fibers. IEEE Photonics Journal, 6(6), 1-6.

3.     Chen, H. , Li, S. , & Cheng, T. . (2014). Polarization splitter based on three-core photonic crystal fiber with rectangle lattice. Journal of Modern Optics, 61(20), 1696-1701.

4.     陈海良, 马明建, & 李建设. (2014). 多光束非定域干涉反射光强分布. 光子学报, 43(2),203002.

5.     李建设, 李曙光, 赵原源, 韩颖, 陈海良, & 韩晓明等. (2014). 在远离光子晶体光纤零色散波长的正常色散区入射飞秒脉冲产生四波混频及孤子效应的实验研究. 物理学报, 63(16), 205-211.

2013

1.     陈海良, 李曙光, 王锁明, 孙鑫, 李兴元, & 朱二矿. (2013). 多光束非定域干涉透射光强分布. 光谱学与光谱分析(12).

 

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