组织国际会议与做邀请报告:
1)http://www.emnmeeting.org/optoelectronics/optoelectronic-materials-and-devices邀请报告�
在2015年4月于北京召开的EMN Meeting on Optoelectroncs上做Invited Talk,并担任Session Chair。
2)http://scitation.aip.org/content/aip/proceeding/aipcp/1618 主办Symposium #4�
在2014年4月于希腊召开的10th International Conference of Computational Methods in Sciences and Engineering(ICCMSE2014)中的Symposium on Modeling of Nonlinear Photonics in Optical Communications: Materials, Devices and Systems (Symposium #4)中,作为组织者。
3)http://www.icssci.org/invited-speakers/nano-and-micro-structure/ 邀请报告�
在2013年12月于美国召开的International Conference on Small Science上做Invited Talk。
4)Yan Ling Xue, Feng Zhu, Jun Wang, Shiyu Sun, Lili Hu, Dingyuan Tang, “Structural andspectroscopic properties of Er:Y2O3 transparent ceramics”, 2021 Optoelectronic and Optoelectronic Materials Development Forum, Beijing, July 2021(2021光电子材料与器件发展论坛,北京,2021年7月),邀请报告,并担任分会场主席。
Selected Publications(第一作者或通信作者):
1. Zhang D., Zhang H., Cao Y., Xue Y. L., Combined modulation format identification and optical signal-to-noise ratio monitoring with high accuracy and generalizability based on a proposed fused module few-shot learning algorithm in dynamic coherent optical transmissions, Optics Express, vol.32, Issue 8, pp. 14719-14734(2024).
2. Xue Y. L., Zhu F., Wang J., Sun S., Hu L., Tang D., Fabrication and comprehensive structural and spectroscopic properties of Er:Y2O3 transparent ceramics, Journal of Rare Earths, vol. 40, pp.1913-1919(2022) DOI:10.1016/j.jre.2021.12.003.
3. JIn W., Song M., Hu W., Xue Y. L., Gao Y., "Diffraction propagation of light wave and image distortionless transmission in ten-fold symmetric photonic quasicrystal lattices”, Optics Communications, vol. 500, July 127329(2021).
4.Jiang C., Xue Y. L., Wang R., Kong R., "Area scalable and period manipulable three-dimentional optically induced photorefractive photonic crystal/quasicrystal", Superlattices and Microstructures, vol.140, 106446( 2020) DOI: 10.1016/j.spmi.2020.106446.
5.Xu Z. G., Xue Y. L., Huang Z., “Dependence of dispersion on metamaterial structural parameters and dispersion management”, Applied Science, vol. 8, No. 7, 1057(2018) DOI:10.3390/app8071057.
6.Jin W., Xue Y. L., Jiang D., “Area scalableoptically induced photorefractive photonic microstructures”, Optical Materials,vol.57, pp.174 -178(2016) DOI:10.1016/j.optmat.2016.03.052.
7.Jin W., Xue Y. L., “Optical fabrication of two‑dimensional photorefractive periodic photoniclattices and quasicrystal microstructures by multi‑lens board”, Applied Physics B: Laser and Optics, vol.120, pp.75-80(2015) DOI: 10.1007/s00340-015-6100-6.
8.Jin W., Xue Y. L., “Optical fabrication of wavy lattices and photoniclattices with defects in photorefractive crystal by single step projectionmethod”, Superlattices and Microstructures, vol.82, pp.136-142(2015) DOI: 10.1016/j.spmi.2015.02.021.
9.Ying Liu, Xue Y. L.,andChuanxi Yu, “Modulation Instability Induced byCross-Phase Modulation in Negative Index Materials with Higher-OrderNonlinearity”, Optics Communications, vol.339,pp.66-73(2015) DOI: 10.1016/j.optcom.2014.11.045.
10.Xue Y. L.,Liu W., GuY, and Zhang Y., “Light storage in a cylindrical waveguide with metamaterials”,Optics and Laser Technology, vol.68,pp.28-35(2015) DOI: 10.1016/j.optlastec.2014.11.004.
11.Jin W., Xue Y. L., “Generation of reconfigurable two-dimensional photorefractivephotonic heterostructures with composite period using multi-lens board”, Opticsand Laser Technology, vol.66, pp.106-111(2015) DOI:10.1016/j.optlastec.2014.08.015.
12.Jin W., Xue Y. L.,“Optically InducedThree-Dimensional Penrose-type Photonic Quasicrystal Lattices in Iron-DopedLithium Niobate Crystal”, Optics Communications, vol.322, pp.205-208 (2014).DOI: 10.1016/j.optcom.2014.02.054.
13.Li Z., Xue Y. L. and Shen T., "Investigation of Patch Antenna based on PhotonicBand-gap Substrate with Heterostructures"‚ Mathematical Problems inEngineering‚ vol.2012, Article ID 151603, 9 pages, doi:10.1155/2012/151603 (2012).DOI:10.1155/2012/151603
14.Xue Y. L., Wu P., Liu Y.,Zhang X., Lin L., and Jiang Q., “Highly Efficient Near-IR Photoluminescence of Er3+Immobilized in Mesoporous SBA-15”, Nanoscale Research Letter, vol.5, pp.1952–1961(2010). DOI:10.1007/s11671-010-9732-9
15.Xue Y. L., “FWM and XPM in Er3+-doped silica and telluritefibers”, Optics Communications, vol.281, pp.1558-1567 (2008) (DOI:10.1016/j.optcom.2007.11.051). DOI:10.1016/j.optcom.2007.11.051
16.Lin Liang-Shu, Xue Y. L., Jiang Qi-Cheng, Zhang Xiao-Min, Wu Peng, Liu Yue-Ming, “Highly efficientemission of Er3+ in a functionalized mesoporous silica”, Acta Physica Sinica, vol.57, No.9,pp.5989-5995(2008)
17.Xue Y. L., Smith G. B., Baker A. T., “Large refractive index and inter-particle interactioninduced nonlinear modulation in densely doped composite materials”‚ IEEEJournal of Quantum Electronics‚ Vol. 34‚ No. 8‚ pp.1380-1389(1998).
18.Zhang W., Chu P. L., Xue Y. L.,“Distortion of amodulated signal by multi-wave mixing in an erbium doped optical fiberamplifier”‚ Journal of the Optical Society of America B‚ Vol.11‚ No. 7‚ pp.1277-1282(1994).
19.Xue Y. L.,Chu P. L., Zhang W., “Resonance-ehanced refractive index and its dynamics inrare-earth-doped fibers”‚ Journal of the Optical Society of America B‚ Vol.10‚No. 10‚ pp.1840 -1847(1993).
20.Chu P. L., Xue Y. L.,“Nonlinear effectsin erbium-doped fibers”‚ International Journal of Nonlinear Optical Physics‚ Vol.2‚ No. 3‚ pp.401-413(1993)(Invited).
21.Betts R., Xue Y. L.,et al.,“Nonlinear refractive index in erbiumdoped fiber: theory and experiment”‚ IEEE Journal of Quantum Electronics‚ Vol.27‚ p.908(1991).
International Conference:
1. Yameng Cao, Di Zhang, Hanyu Zhang, Yan Ling Xue, “Multi-task optical performance monitoring using a transfer learning assisted cascaded deep neural network in WDM systems", International Conference on Computing, networking and Communications (ICNC 2024), Hawaii, USA. (录用率24.10%)
2. Feng Xia, Di Zhang, Yan Ling Xue, “Modulation format recognition and OSNR estimation using few-shot learning in coherent optical communication systems”, Asia Communications and Photonics Conference, Session 13-T5, paper ID:5107 (2022), Shenzhen, China.
3. Jingyi Zang, Yan Ling Xue, Jun Wang, Hui Lin, Shiyu Sun, Lili Hu, Ying Wang, Dingyuan Tang, "Investigation on photoluminescence properties of Ho:Y2O3 ceramics", 2022 4th International Conference on Optoelectronic Science and Materials, Hefei, China, September 16-18, 2022.
4. Hanyu Zhang, Di Zhang, Yan Ling Xue, “Constellation diagram analyzer based on few shot learning”, Asia Communications and Photonics Conference, T4A 263 (2021), Shanghai, China. https://opg.optica.org/abstract.cfm?URI=ACPC-2021-T4A.263, https://doi.org/10.1364/ACPC.2021.T4A.263
5. Haixin Bi, Yan Ling Xue, "Impact of nonlinearity in EDFAs on high-speed systems”, IEEE 19th International Conference on Optical Communications and Networks (ICOCN), Qufu, China, August 23-27, 2021 (Best poster paper award), IEEE, 2021: 1-3.
6. Fan Yang, Yan Ling Xue, “Propagation of optical dark solitons in metamaterials”, Journal of Physics (Conference Series), vol.1815, 012027(2021) (CCME2020: 2020 2nd International Conference on Computer, Communications, Mechanics Engineering, Xiamen, China,Dec.20-21, 2020)doi:10.1088/ 1742-6596/1815/1/012027.
7. Cheng Jiang, Yan Ling Xue, Rui Wang, Yongfa Kong,“Fabrication and analyses of large-area 3D photonic crystals in photorefractive material”, Asia Communications and Photonics Conference, M4A 326 (2019), Chengdu, China.
8. Wentao Jin, Yan Ling Xueand Dongdong Jiang, “Large area optically induced photorefractive photonic crystal”, World Congress on Laser Optics and Photonics (2017), Valencia, Spain
9. Y. L.Xue,Liu W. and Gu Y, “Stopped Light in a cylindrical waveguide with metamaterial”, 47th Annual Meeting of the APS Division of The Atomic, Molecular and Optical Physics (2016) Rhode, Island, USA
10. Wentao Jin, Yan Ling Xue,“Photorefractive Photonic Microstructures in LiNbO3:Fe Crystal”,EMN Meetings on Optoelectronics (2015) 北京(Invited talk)
11. C. Yu, Y. L. Xue, and Y. Liu, “Modulation Instability Induced by Cross-Phase Modulation with Higher-Order Dispersion and Cubic- Quintic Nonlinearities in Metamaterials”, Proc. Of SPIE (International Symposium on Photonics and Optoelectronics, SOPO2014), vol. 9233, paper.92331D(2014), Suzhou, China (EI)
12. Y. L. Xue, “Preface of the ‘Symposium on modeling of nonlinear photonics in optical communications: Materials, devices and systems’ ”, AIP Conference Proceeding 1618, vol.1618, pp.68-68(2014) (10th International Conference of Computational Methods in Sciences and Engineering (ICCMSE2014), April 4-7, Athens, Greece 2014) DOI: 10.1063/1.4897676 http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4897676(EI) Session #4 (原Session 15) 组织者
13. Y. Liu, Y. L. Xue and C. Yu, “Modulation Instability Induced by High-Order Nonlinearity in Cross-Phase Modulation in Metamaterials”, AIP Conference Proceeding 1618, vol.1618, pp.72-75(2014) (10th International Conference of Computational Methods in Sciences and Engineering (ICCMSE2014), April 4-7, Athens, Greece 2014) DOI: 10.1063/1.4897678 http://scitation.aip.org/content/aip/proceeding/aipcp/10.1063/1.4897678(Invited talk) (EI)Session #4 (原Session 15) 组织者
14. Wentao Jin, Yan Ling Xue,“Optical generation of two-dimensional composite periodic photonic lattices in photorefractive crystal”,International Conference on Small Science (2013) 美国Las Vegas (Invited talk)
15. Liu W., Xue Y. L., “Slow light propagation in a cylindrical waveguide with left-handed material”, Proc. Of the 4th International Symposium on Photonics and Optoelectronics (SOPO2012) (2012) 上海 .
15. Xue Y. L., Wu P., Liu Y., Zhang X., Lin L., and Jiang Q., “Efficient Near-IR Photoluminescence of Er3+ Ions Immobilized in Mesoporous SBA-15”, Proc. Of 2011 International Conference on Advanced Infocomm Technology (ICAIT)(CD),conf11a372(2011) 武汉(Invited talk).
17. Li Y. and Xue Y. L., “Off-resonant slow light induced by CPO for WDM systems“, Proc. Of 2009 International Conference on Advanced Infocomm Technology (ICAIT)(CD),conf07a127(2009)西安.
18. Tang X. and Xue Y. L., “Stronger slow light effect in densely doped erbium fibers”, Proc. SPIE, vol.7136,713622(2008)杭州 (DOI:10.1117 /12.803442)
19. Xue Y. L., ”Influence of electronic correction on four-wave mixing and cross-phase modulation in silica and tellurite based EDFAs”, Proc. of SPIE, vol.6783, 678324(2007)
中文期刊:
1.林良书,薛燕陵,蒋器成, 张晓敏,吴鹏,刘月明, “Er3+在二氧化硅介孔分子筛中的高效率发光及其分析”,物理学报,vol.57, No.9,pp.5989-5995(2008)(SCI)
2.姜诚、薛燕陵、王瑞,“大面积三维光子晶体的制备与分析”,光电子﹒激光,vol.29, No.11, pp.1179-1186(2018)(核心期刊)
3.徐正国,薛燕陵,“高阶色散对高斯脉冲在超常介质中传输的影响及色散的补偿”,华师大学报,2017年1月,No.2,pp.1-13(核心期刊).
4.施佳乐、薛燕陵,“四通道异质结构光子晶体滤波器”,光通信技术,2016年第4期,pp.27-29(2016年4月)(核心期刊)
5.蒋栋栋、靳文涛、薛燕陵,“光折变晶体中大面积光子点阵的制作与分析”,光通信技术,2016年第4期,pp.56-59(2016年4月),文章编号:1002-5561(2016)04-00X-0Y (核心期刊)
6.刘颖,余传禧,胡之慧,薛燕陵,“超常介质中三、五阶非线性引起的交叉相位调制的非稳定性基于左手材料波导的慢光产生”,光学学报,vol.33,No.6,0619001(2013)(EI, 核心期刊)
7.刘伟,薛燕陵,“基于左手材料波导的慢光产生”,激光与红外,vol.42,No.10(2012)(核心期刊)
8.孙庆安,薛燕陵,“光子晶体波导中慢光的实现”, 光通信技术, pp.37-39(2009年9月) (核心期刊)
9.顾新亭,薛燕陵,“基于MTK平台的用户自定义定时来电防火墙的实现”,电子技术,pp.45-47,2009年第4期
10.薛燕陵,“电子相关性对硅基和碲基EDFA中四波混频与互相位调制的影响”,量子电子学报,vol.25, No.4, pp.471-477(2008) (核心期刊)
11.林良书,薛燕陵,蒋器成,“Judd-Ofelt理论的分析与应用”,华师大学报,No.3, pp.109-114, 2008年5月. (核心期刊)
12.李正华,薛燕陵等,“光子晶体中的慢光及其应用”,激光与红外,vol.38, No.1, pp.3-6(2008) (核心期刊)
13.林良书,薛燕陵,蒋器成,“基于公共光纤网络的保密通信技术”, 光通信技术,pp.54-56, 2007年12月 (核心期刊)
14.蒋器成,薛燕陵,林良书,“基于CPO的可控光速技术研究的最新进展”,光通信技术,pp.61-63, 2007年10月(核心期刊)
专著:
P.L. Chu, B. Wu and Y. L. Xue, "Opticalswitching based on erbium-doped twin-core fibers", Lightwave Technologyand Communications, p.44. A. Altintas and G. Saplakogln (eds.) (1992)
专利:
1.中国发明专利‚“一种可制作多种二维光子晶体结构的方法及其装置”,靳文涛;薛燕陵,授权号:ZL201410018381.6,授权公告日:2016年4月6日
2.中国发明专利‚“三维三角光子晶体、四方光子晶体、五角光子准晶的晶格周期及排列规则的控制方法”, 薛燕陵; 姜诚, 授权号:ZL201910492429.X,授权公告日:2021年11月19日
3.中国发明专利,“三维三角光子晶体、四方光子晶体、五角光子准晶的晶格周期及排列规则的控制方法”, 薛燕陵; 姜诚, 授权号:ZL202110949137.1,授权公告日:2022年10月25日
