夏长明

                             个人简历

姓名： 夏长明

职称： 讲师，硕士生导师

办公地点：  理四栋309

电子邮箱： xiacmm@126.com

最后学位及授予单位：博士/燕山大学

研究方向：激光材料、特种光纤制备及应用

主讲课程：激光原理与技术

选修课程：光纤激光器入门

研究生课程：光纤激光器

主持或参加科研项目（课题）情况

1.广州永发窗帘制品有限公司, 横向课题, 无, 光纤式激光装置及其衍生产品, 2023-10 至 2024-10, 100万元, 在研, 主持

2. 华南理工大学发光材料与器件国家重点实验室, 开放课题, 2023-skllmd-22, 高浓度掺钬镧铝硅酸盐玻璃微结构光纤制备及性能研究, 2023-01 至 2024-12, 3万元, 在研, 主持

3. 华南师范大学（清远）科技创新研究院, 开放课题, HQYY2021-021, 长距离布拉格空芯反谐振光纤研制及产业化, 2021-09 至 2023-09, 5万元, 在研, 主持

4. 国家自然科学基金委员会，重点项目，61935010，高能量超短脉冲中红激光技术，2020-01至2024-12，302万，在研,华师负责人

5. 大恒新纪元科技股份有限公司, 教育部2020产学合作协同育人项目--实践条件和实践基地建设, 202002091019, 空芯反谐振光纤研制教学实践基地建设, 2020-12 至 2022-11, 20万元, 结题, 主持

6. 广东省重点领域支持研发计划，2018B010114002,光子-无线融合的分布式5G系统关键技术，2019-01至2021-12，3000万，已结题,华师负责人

7. 国家重点研发计划项目，2018YFB0407403,大功率激光清洗装备应用示范， 2018-07至2021-06，1150万，已结题,华师负责人

8. 广东省自然科学基金，2017A030313333，掺钬微结构光纤制备关键技术的研究，2017-05至2020-05，10万元，已结题，主持

9. 国家自然科学基金委员会，面上项目，61875058，基于Kerr自清洁技术实现飞秒脉冲准基模光束的时空锁模光纤激光器研究， 2019-01-2022-12，63万元，在研，参加

10. 国家自然科学基金委员会，重大仪器专项项目，61527822，基于全光纤飞秒激光器的微纳光子器件三维激光直写系统，2016-01至2020-12，760.64万，已结题，参加

11. 国家自然科学基金委员会，面上项目，61575066,基于高温等离子法制备掺镱微结构光纤光暗化机理研究，2016-01至2019-12，74万，已结题，参加

12. 国家自然科学基金委员会，面上项目，61377100，镱离子掺杂微结构光纤制备新方法研究， 2014-01至2017-12，83万，已结题，参加

13. 广东省自然科学基金委员会，博士启动项目，S2013040015665，基于非化学气相沉积法掺Tm³⁺石英基光子晶体光纤的制备，2013-10至2015-10，3万元，已结题，主持

14. 国家973计划课题，2010CB327604，微结构光纤波导及器件中的超快光子 学效应与光子行为调控，2010/10-2014/08，149万，已结题、参加

15. 国家自然科学基金重点项目，60637010，超大功率集成式多芯微结构光 纤激光器的研究，2007/01-2011/12，200万，已结题，参加

16. 国家973计划课题，2003CB314905，微结构光纤的结构设计及制备工艺 创新和基础研究，2003/01-2008/12，326万，已结题，参加

发表文章

查看 夏长明 发表文章及引用情况用下面学术搜索网址（鼠标选择，右击打开超级链接即可）

‪Changming Xia‬ -学术优质资源搜索‬‬ (studiodahu.com)

1. 夏长明, 卢家澳, 黄卓元, 刘建涛, 侯峙云, 周桂耀， 掺铥镧铝硅酸盐玻璃光子晶体光纤制备及光学特性，物理学报, 2023, 72(20): 204206. doi: 10.7498/aps.72.20230766

2. J Kang, Z Mo, Z Huang, J Yang, W Ma, J Liu, C Xia, Z Hou, G Zhou，Fabrication and optical properties of Tm³⁺/Ho³⁺ co-doped lanthanum aluminosilicate photonic crystal fiber for 2 μm fiber lasers，Journal of Non-Crystalline Solids 596, 121869，2022（指导本科生课题论文）

3. 夏长明,黄卓元,刘建涛,等. 大芯径空气包层微结构光纤实现kW级激光传输[J]. 强激光与粒子束,2022,34(5):89-91. DOI:10.11884/HPLPB202234.210452.

4. Zhuoyuan Huang, Jiahao Yang, Zhifeng Mo, Jiaao Lu, Changming Xia*, Zhiyun Hou, Guiyao Zhou,Visible and near-infrared emission and energy transition of Er³⁺-Pr³⁺-Yb³⁺ tri-doped lanthanum aluminium silicate glasses,Journal of Non-Crystalline Solids,Volume 591, 2022, 121718, https://doi.org/10.1016/j.jnoncrysol.2022.121718.

5. 杨家濠, 张傲岩, 夏长明, 邓志鹏, 刘建涛, 黄卓元, 康嘉健, 曾浩然, 蒋仁杰, 莫志峰, 侯峙云, 周桂耀. 窄带空芯反谐振光纤的制备及其模式转换应用研究. 物理学报.2022. doi: 10.7498/aps.71.20212194

6. Xia, Changming*, Jiantao Liu, Zhiyun Hou, and Guiyao Zhou. 2022. "Divalent Yb-Doped Silica Glass and Fiber with High Quantum Efficiency for White Light Source" Materials 15, no. 9: 3148. https://doi.org/10.3390/ma15093148

7. Changming Xia*; Zhipeng Deng; Aoyan Zhang; Peng Cai; Zhifeng Mo; Jiantao Liu; Guiyao Zhou; Zhiyun Hou；liang Guo; Qingmao zhang "Ultra-Low-Loss Hollow-Core Bragg Antiresonant Fiber With Super Bandwidth Transmission Window," in IEEE Photonics Journal, vol. 14, no. 3, pp. 1-5, June 2022, Art no. 6526105, doi: 10.1109/JPHOT.2022.3157264.

8. Leben Liang, Zhifeng Mo, Biao Ju, Changming Xia, Zhiyun Hou, Guiyao Zhou,Visible and Near-Infrared emission properties of Yb³⁺/Pr³⁺ co-doped lanthanum aluminum silicate glass,Journal of Non-Crystalline Solids,Volume 557, 2021,120578, https://doi.org/10.1016/j.jnoncrysol.2020.120578.（指导本科生课题论文）

9. Liang Leben (#); Ju Biao; Long Xiongquan; Liu Jiantao; Rong Siyuan; Xia Changming ^*;Chen Yun; Hou Zhiyun; Zhou Guiyao; Zhao Nan; Fabrication and optical properties of Tm³⁺/Al³⁺ co-doped photonic crystal fiber based on CO₂ laser sintering technology, Journal of Non-Crystalline Solids，2019，522：119590. (IF 2.6)（指导本科生课题论文）

10. 夏长明；周桂耀；微结构光纤的研究进展及展望，激 光 与 光 电 子 学 进 展，2019，56（17）：170603-1-170603-21

11. Xia Changming^(#);Zhou Guiyao^(*);Zhang Wei;Liu Jiantao;Han Ying;Yuan Jinhui;Influence of Yb²⁺ ions on the optical properties of Yb³⁺/Ho³⁺ co-doped silica glass synthesized by non-chemical vapor deposition method，Journal of Non-Crystalline Solids，2015，421：20-23.(IF 2.6)

12. Xia Changming^(#);Zhou Guiyao^(*);Liu Jiantao; Zhang Wei;Han Ying;Yuan Jinhui; Optical and laser properties of Tm³⁺-doped air-cladding fiber fabricated by plasma non-chemical vapor deposition，Applied Physics B: Lasers and Optics，2015，121（1）：25-30.

13. XiaChangming^(#);Zhou Guiyao^(*);Liu, Jiantao;Wang Chao;Han Ying;Zhang Wei;Yuan Jinhui;Fabrication and laser performance of Yb³⁺/Al³⁺ co-doped photonic crystal fiber synthesized by plasma nonchemical vapor deposition method，Optical Fiber Technology，2015，25：20-24.

14. Xia, Changming^(#)，Zhou, Guiyao，Liu, Jiantao，Wang, Chao，Han, Ying，Yuan, Jinhui，Optical properties of Yb³⁺/Ho³⁺ co-doped air cladding silica-based fiber fabricated with plasma non-chemical vapor deposition method，Applied Physics A-Materials Science & Processing，2015，118（2）：525-530.

15. Xia, Changming ; Liu, Jiantao; Zhang, Wei; Liang, Wanting; Han, Ying;Yuan, Jinhui; Zhou, Guiyao ,(*)Yb³⁺/Tm³⁺/Ho³⁺ tri-doped silica-based glass:intense up-conversion and broad near-infrared emission, Optical and QuantumElectronics, 2016.4, 48(4) (期刊论文)

16. Xia, Changming ; Zhou, Guiyao ; Liu, Jiantao; Wang, Chao; Han, Ying;(#) (*)Zhang, Wei; Yuan, Jinhui, Fabrication and laser performance of Yb³⁺/Al³⁺co-doped photonic crystal fiber synthesized by plasma nonchemical vapordeposition method , Optical Fiber Technology, 2015.10, 25: 20~24 (期刊论文)

17. Xia, Changming ; Zhou, Guiyao ; Zhang, Wei; Liu, Jiantao; Han, Ying;(#) (*)Yuan, Jinhui, Influence of Yb2+ ions on the optical properties of Yb³⁺/Ho³⁺co-doped silica glass synthesized by non-chemical vapor deposition method , Journal of Non-Crystalline Solids, 2015.8.1, 421: 20~23 (期刊论文)

18. Xia, Changming ; Zhou, Guiyao ; Liu, Jiantao; Zhang, Wei; Han, Ying;(#) (*)Yuan, Jinhui, Blue and near-infrared up-conversion in double-air-claddingTm³⁺-doped silica fiber under 1064 nm excitation , Optical and QuantumElectronics, 2015.11, 47(11): 3435~3444 (期刊论文)

19. Xia, Changming ; Zhou, Guiyao ; Han, Ying; Zhao, Xingtao; Wang, Chao;(#) (*)Hou, Lantian, Investigation on preparation and spectroscopic properties of Yb²⁺-doped silica-based glass prepared by the oxyhydrogen flame fusing process Optical Materials, 2013.10, 35(12): 2561~2564 (期刊论文)

20. Xia, Changming ; Zhou, Guiyao ; Han, Ying; Zhao, Xingtao; Hou,(#) (*)Lantian, Luminescence of Yb2+, Yb3+ co-doped silica glass for white light source , Optical Materials, 2012.3, 34(5): 769~771 (期刊论文)

21. Xia, Changming ; Zhou, Guiyao; Han, Ying; Hou, Lantian,(*)Highly birefringent octagonal photonic crystal fibers with two zero-dispersion wavelengths , Chinese Optics Letters, 2011.10.10, 9(10): 37

22. B Li, Y Zhang, G Zhou, Z Hou, C Xia The Surface Plasmon Resonance Polarizing Management in Helical Microstructure Fiber，Plasmonics, 1-6 （2020，IF 2.926）

23. M Wu, B Li, J Li, G Zhou, C Xia, H ZhiyunResearch on Fabrication and Performance of Hollow-core Anti-resonant Fiber Coated with Copper Film, IEEE Photonics Journal (2019,IF 2.729)

24. M Wu, XY Liu, GY Zhou, CM Xia, BY Li, ZY Hou Design and optimization of microstructure optical fiber sensor based on bimetal plasmon mode interaction Chinese Physics B 28 (12), 124202 (2019,IF 1.469)

25. Y Chen, N Zhao, J Liu, M Zhu, Y Mai, G Zhou, Z Hou, C Xia, Y Zheng,Investigation of photo-darkening effect in ytterbium-doped microstructure optical fiber through the laser sintering fabrication method,Journal of Non-Crystalline Solids 521, 119468 (2019,IF 2.6)

26. B Li, M Wu, Y Liang, K Liu, G Zhou, J Liu, Z Hou, C Xia,Multi-functional double rare-earth-doped ball sensor based on a hollow-core microstructure fiber, Optics letters 44 (9), 2350-2353( 2019,3.886)

27. B Li, M Wu, X Liu, G Zhou, J Liu, Z Hou, C Xia,Surface Plasmon Resonance on the V-Type Microstructured Optical Fiber Embedded with Dual Copper Wires,Plasmonics 14 (2), 383-387 (2019,2.926)

28. Y Chen, N Zhao, J Liu, Y Xiao, M Zhu, K Liu, G Zhou, Z Hou, C Xia,Yb³⁺-doped large-mode-area photonic crystal fiber for fiber lasers prepared by laser sintering technology,Optical Materials Express 9 (3), 1356-1364(2019,2.673)

29. Y Xiao, G Zhou, W Xian, Z Hou, C Xia, J Liu, H Fan, Y Zheng, Z Chen,Fabrication of microlenses on ytterbium-doped double-cladding microstructured optical fibers with a CO2 laser for effective optical coupling Journal of Optics 48 (1), 123-128(2019,2.753)

30. Y Xiao, Y Chen, J Liu, Y Mai, K Liu, Z Hou, G Zhou, C Xia,A monolithic microlens for an ytterbium-doped microstructured optical fiber amplifier,Laser Physics 29 (3), 035104 (2019,1.231)

31. B Li, M Wu, X Liu, G Zhou, T Wang, Z Sheng, Z Hou, C Xia,Design and characterization of bio-chemical sensor based on photonic crystal fiber with fluorine-doped tin oxides film,Plasmonics 14 (1), 197-203 (2019,IF 2.926)

32. S Liang, Z Hou, G Zhou, J Liu, C XiaBroadband stimulated emission generation in Er³⁺/Tm³⁺/Ho³⁺ codoped optical fiber rod,Optical Engineering 57 (5), 057106 (2018 IF 1.209)

33. W Zhang, J Liu, G Zhou, C Xia, S Liang, Y Chen, Z Hou Optical properties of the Yb/Er co-doped silica glass prepared by laser sintering technology,Optical Materials Express 7 (5), 1708-1715 (2017,IF 2.673)

34. B Li, M Li, L Peng, G Zhou, Z Hou, C Xia,Research on dual-wavelength single polarizing filter based on photonic crystal fiber IEEE Photonics Journal 9 (4), 1-9(2017,IF2.729)

35. M Li, L Peng, G Zhou, B Li, Z Hou, C Xia Design of photonic crystal fiber filter with narrow width and single-polarization based on surface plasmon resonance, IEEE Photonics Journal 9 (3), 1-8(2017,IF 2.729)

会议论文

1. Huang Zhuoyuan , Ma Weichao, Wu Tong,Lu Jiaao, Liu, Jiantao, Xia Changming^(#),Hou Zhiyun, Guiyao, Zhou. (2022). Er ³⁺ -Pr ³⁺ -Yb ³⁺ Tri-doped La₂O₃-Al₂O₃-SiO₂ glass double clad fiber for C+L Amplification. 2022 IEEE 7th Optoelectronics Global Conference (OGC), 22-24.

2. 夏长明, 莫志峰, 刘建涛, 等. 基于空芯微结构光纤带通滤波器的制备及特性研究[C]. 第四届全国自主导航学术会议(CCAN)——光子晶体光纤陀螺及相关器件的技术与应用 论文集, 2020: 42-48.

3. Xia Changming ^#; Liu Jiantao; Zhang Wei; Hou Zhiyun; Zhou Guiyao; Optical properties and laser performance of Tm³⁺ -doped photonic crystal fiber with La₂O₃ -Al₂O₃-SiO₂ glass,Lasers and Electro-Optics Pacific Rim (CLEO-PR), 2017 Conference on, singapore , 2017--7-31至2017-08-04

4. Xia Changming ^#；Sheng Zicheng； Fan Hanxia； Liu Jiantao； Hou Zhiyun； Zhou Guiyao；Hollow Core Fibers for Optical Pumped Fiber Gas Laser， Conference on Lasers and Electro-Optics/Pacific Rim, Tu2E. 3 HongKong, 2018-7-29至2018-08-03

5. M Wu, B Li, G Zhou, Z Hou, C Xia Dual-channel optical fiber sensor based on the plasmon multimode interaction,17th International Conference on Optical Communications and Networks 

6. B Li, M Wu, G Zhou, Z Hou, C Xia,Research on photonic crystal fiber polarization devices based on surface plasmon,17th International Conference on Optical Communications and Networks

专利

1. 夏长明 ;周桂耀 ;侯峙云 ;刘建涛 应用于空芯反谐振光纤预制棒制备的伸缩式卡位装置2022-09-02， CN114988686A   

2. 夏长明 ;周桂耀 ;侯峙云 ;刘建涛 应用于高性能集成放大的EDFA微纳光纤放大器2022-09-06 CN115021054A   

3. 夏长明;刘建涛;周桂耀;侯峙云，一种信能共传微结构光纤，2023-07-04，ZL 2021 1 0698935.1

4. 夏长明;刘建涛;周桂耀;侯峙云，一种用于特种光纤拉制的激光拉丝塔，2023-08-08，ZL 2020 1 1443599.8

5. 夏长明;刘建涛;周桂耀;侯峙云，一种高功率激光传输微结构光纤，2023-08-08，ZL 2021 1 0700490.6

6. 夏长明;刘建涛;周桂耀;侯峙云，一种阳光泵浦气体光纤激光器，2023-08-11，ZL 2020 1 1443535.8

7. 夏长明; 康嘉健; 冯袁赋; 黄卓元; 邬涛; 杨家濠; 刘骏辉 ; 一种分布式共掺微结构光纤, 2023-1-31， ZL202210088354.0

8. 夏长明;刘建涛;周桂耀;侯峙云；一种布拉格式空芯反谐振光纤， 2021.03.04 中国, ZL 202110240978.5

9. 夏长明;刘建涛;周桂耀;侯峙云;  一种集成式反谐振空芯微结构光纤 2021.01.11 中国, ZL 202120058069.5

10. 张卫; 周桂耀(*); 夏长明; 侯峙云; 刘建涛,采用激光熔炼技术制备稀土掺杂石英玻璃微结构光纤的方法, 2014.11.4, 中国, ZL201410617663.8

11. 夏长明；梁乐本；龙雄泉；张浩铭；黄润斌；一种同带泵浦的光纤激光器，2018.11.15，中国,  ZL 201821884019.7

12. 夏长明；周桂耀；侯峙云；刘建涛；一种基于空芯反谐振光纤的全光纤滤波器，2019.01.09，中国, ZL201920036830.8

13. 夏长明；周桂耀；侯峙云；刘建涛；一种基于带隙微结构光纤的柔性定点光疗系统， 2018.12.06，中国, ZL201822043962.1

u 友情链接

Optoelectronics Research Centre (ORC), University of Southampton, UK

https://www.orc.soton.ac.uk/

Photonic Crystal Fibres (RUSSELL DIVISION), Max Planck Institute for the Science of Light, Germany

https://mpl.mpg.de/divisions/russell-division/

Centre for Photonics and Photonic Materials, University of Bath, UK

https://www.bath.ac.uk/research-centres/centre-for-photonics-and-photonic-materials/

Gas-Phase Photonic and Microwave Materials group, Xlim Research institute, University of Limoges, France

https://www.xlim.fr/en/gppmm

CREOL, The College of Optics and Photonics, University of Central Florida, US

https://creol.ucf.edu/person/rodrigo-amezcua-correa/

DTU FOTONIK, Department of Photonics Engineering, Technical University of Denmark, Denmark

https://www.dtu.dk/english/service/phonebook/person?id=6148&cpid=&tab=2

Kuipers Lab, Department of Quantum Nanoscience, Delft University of Technology, The Netherlands

https://kuiperslab.tudelft.nl/