1.國家自然科學基金青年項目,“非圓對稱多通道微結構光纖中軌道角動量模式耦合調(diào)控機理及應用研究”,2018-2020,主持;
2.天津市自然科學基金青年項目,“光纖軌道角動量光束傳輸色散補償調(diào)控技術研究”2019-2022,主持; 3.國家自然科學基金青年項目,“注意力驅(qū)動的多通道胸水腫瘤細胞團塊識別”,2018-2020,參與; 4.國家自然科學基金青年項目,“液芯光纖微流控中的反諧振光流作用增強機理及生物分子識別應用研究“,2019-2021,參與; 5.天津市自然科學基金重點項目,“基于光流控光子晶體光纖的模式調(diào)控和傳感技術研究“,2014-2017,參與; 6.天津市自然科學基金青年項目,“功能化微結構光纖生物分子芯片技術與應用研究“,2018-2021,參與; 7.天津市教委科研計劃項目,“多通道流式分子智能芯片及其癌癥早期檢測技術研究“,2018-2021,參與; 8.天津市光電傳感器與傳感網(wǎng)絡技術重點實驗室基金,“新型光子晶體光纖光柵輔助型模間干涉儀工作機理與應用研究“,2016-2018,主持; 9.橫向課題,“深度學習計算框架及應用示范“,2017-2018,參與; 10.橫向課題,“神經(jīng)退行性疾病早期智能預警高級機器學習技術與示范應用”,2020,參與;
1. Wei Huang*, Yue Xiong, Haibo Qin, Yan-ge Liu, Binbin Song, Shengyong Chen,Orbital angular momentum generation in a dual-ring fiber based on the phase-shifted coupling mechanism and the interference of supermodes, Optics Express, Vol.28 No.11, 16996-17009, 2020;
2. Wei Huang*, Yan-ge Liu, Zhi Wang, Binbin Song, Shengyong Chen, Dual-resonance-coupling and sensing characteristics in an all-solid photonic bandgap fiber interferometer based on LP01 cladding supermodes, IEEE Photonics Journal, Vol. 10 No. 3, 7103312, 2018; 3. Wei Huang*, Haibo Qin, Yue Xiong, Binbin Song, Shengyong Chen,Mechanism and characteristics of a tunable dispersion-compensating dual-ring microstructure fiber for different orbital angular momentum modes,Journal of the Optical Society of America A, Vol. 38, No. 2,229-236, 2021; 4. Wei Huang, Yan-ge Liu,* Zhi Wang, Wanchen Zhang, Mingming Luo, Xiaoqi Liu, Junqi Guo, Bo Liu, and Lie Lin, Generation and excitation of different orbital angular momentum states in a tunable microstructure optical fiber, Optics Express, Vol. 23, No. 26, 33741~33752, 2015; 5. Wei Huang, Yan-ge Liu,* Zhi Wang, Bo Liu, Jing Wang, Mingming Luo, Junqi Guo, and Lie Lin, Multi-component-intermodal-interference mechanism and characteristics of a long period grating assistant fluid-filled photonic crystal fiber interferometer, Optics Express, Vol. 22, No. 5, 5883~5894, 2014; 6. Huang Wei, You Yong*, Song Bin-bin, and Chen Sheng-yong,A photonic crystal fiber for supporting 30 orbital angular momentum modes with low dispersion; Optoelectronics Letters, Vol. 16 No. 1, 34-39, 2020; 7. Yong You, Wei Huang*, Shengyong Chen, Binbin Song, Flat and low dispersion microstructured optical fiber for supporting 22 orbital angular momentum modes, Guangxue Xuebao/Acta Optica Sinica, Vol.38 No. 4, 0406006, 2018; 8. Li Yang, Tang Ting-long, Huang Wei*,A robust auto-focus measure based on inner energy, Optoelectronics Letters, Vol.13 No.4, 0309-0313, 2017; 9. Zhe Zhang , Wanli Xue* , Wei Huang* , Shengyong Chen, Effective Video Frame Acquisition for Image Stitching, IEEE Access, Vol. 8, 217086-217097, 2020; 10. Miao Li, Wenguang Zheng*, Yingyuan Xiao, Ke Zhu, Wei Huang*, Exploring Temporal and Spatial Features for Next POI Recommendation in LBSNs, IEEE Access, Vol. 9, 35997-36007, 2021; 11. Wei Huang, Yan-ge Liu,* Zhi Wang, Bo Liu, Junqi Guo, Mingming Luo, Lie Lin, Intermodal interferometer with low insertion loss and high extinction ratio composed of a slight offset point and a matching long period grating in two-mode photonic crystal fiber, Applied Optics, Vol. 54, No. 2, 285~290, 2015; 12. Wei Huang, Yan-ge Liu*, Zhi Wang, Jie Yu, Ya Han, Junqi Guo, Bo Liu, and Lie Lin, Fiber interferometric probe based on a long period grating inscribed in an all-solid photonic bandgap fiber, Wireless and Optical Communication Conference (WOCC), 2016; 13. Wei Huang, Yan-ge Liu*, Zhi Wang, Bo Liu, Lie Lin, Fluid-filled photonic crystal fiber modal interferometer utilizing long period grating, Asia Communications & Photonics Conference, 2013. 14、一種可支持22個OAM模式傳輸?shù)牡推教股⑽⒔Y構光纖,CN107831566B,發(fā)明專利,已授權; 15、一種具有雙生諧振干涉峰的光纖傳感器及其制造方法,CN107990920B,發(fā)明專利,已授權; 16、可支持18個OAM模式傳輸?shù)募兌趸杩諝饪坠庾泳w光纖,CN108957623B,發(fā)明專利,已授權; 17、基于雙環(huán)諧振的OAM模式色散補償微結構光纖,CN111913250A,發(fā)明專利,已公開; 18、光纖特性預測軟件,2021SR1038627,軟著。
入選2017年天津市“131”創(chuàng)新型人才培養(yǎng)工程,天津市高校“青年后備人才支持計劃”人選; 擔任《Optoelectronics Letters》期刊編委及多個國際高水平學術期刊(Optica、Optics Express等)審稿人; 在SCI和EI收錄的國際高水平學術期刊發(fā)表論文30余篇,授權發(fā)明專利和軟著10余項。
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