部分论文成果：

[1] Y. Zhu, Yu Wang*, W. Chen, Z. Yan, and H. Li, Analysis and Evaluation of Three-Stage Twisty Octapole Field Electromagnetic Launcher, IEEE Trans. Plasma Sci., vol. 40, no. 5, pp. 1399-1406, May 2012.

[2] 朱英伟,李海涛,严仲明,谢晓芳,付磊,王豫.线圈型电磁发射器磁场构型的设计与分析.兵工学报, 2011,32(4):464-468.

[3] H. Li, Y. Yu Wang*. Zhu, R. Wu, L. Dong, K. Dou, Design and Testing of a High-Temperature Superconducting Pulsed-Power Transformer, IEEE Trans. Appl. Supercond. Vol. 22, no. 2, pp. 5500205-5500205, April 2012.

[4] H. Li, Yu Wang*, W. Chen, W. Luo, Z. Yan, L. Wang, Inductive Pulsed Power Supply Consisting of Superconducting Pulsed Power Transformers With Marx Generator Methodology, IEEE Trans. Appl.Supercond., vol. 22, no. 5, pp. 5501105-5501105, Oct. 2012.

[5] 李海涛,董亮,邵慧,朱英伟,王豫.脉冲功率系统储能型超导脉冲变压器放电研究.低温与超导, 2011, 39(3):45-48.

[6] 李海涛, 邵慧, 董亮, 严仲明, 王豫. 基于超导储能型脉冲变压器的脉冲电源放电研究. 电工电能新技术, 2012, 31(1).

[7] R. Wu, Yu Wang*, Z. Yan, Z. He, and L. Wang, Simulation and Experimental Investigation of an Inductive Pulsed Power Supply Based on the Head-to-Tail Series Model of HTS Air-Core Pulsed Transformer, IEEE Trans. Appl. Supercond., vol. 23, no, 4, pp. 5701305- 5701305, Aug. 2013.

[8] R. Wu, Yu Wang*, Z. Yan, W. Luo, and Z. Gui, Design and Experimental Realization of a New Pulsed Power Supply Based on the Energy Transfer between Two Capacitors and HTS Air-Core Pulsed Transformer, IEEE Trans. Magn., vol. 41, no. 4, pp. 993-998, April 2013.

[9] R. Wu, Yu Wang*, Z. Yan, Z. He, and L. Wang, Design and Testing of a Novel Inductive Pulsed Power Supply Consisting of HTS Pulse Power. Transformer and ZnO-Based Nonlinear Resistor, IEEE Trans. Magn., vol. 41, no. 7, pp. 1781-1786, July 2013.

[10] W. Luo, Yu Wang*, Z. Gui, Z. Yang, and W. Chen, Connection Pattern Research and Experimental Realization of Single Stage Multipole Field Electromagnetic Launcher, IEEE Trans. Magn., Vol. 41, no. 11, pp.3173-3179, Nov. 2013.

[11]Z. X. Gui, Yu Wang*, et al., Experimental Studies of the Resistive Superconducting Fault Current Limiter Based on Double-Sided YBCO Thin Films, IEEE Trans. Appl. Supercond., Vol. 24, no. 1, Feb. 2014

[12] DONG Liang, CHEN HanJun, GAN YingJie, WANG Yu*, DONG Xiang, PENG ShuJie, Chin. Sci. Bull, 58（2013）2924-2926

[13] Zhongqiu Hua, Liang Dong, Haiqing Wang, Shujie Peng, Yu Wang*, Varistor behavior study in undoped tungsten trioxide ceramic Phys. B 406 (2011) 2807-2810.

[14] Haiqing Wang, Shujie Peng, Zhongqiu Hua, Xiang Dong, Yu Wang*, Liang Dong, Effect of temperature on the electrical properties of(WO3?Co2O3) composite Phys. B 406 (2011) 4183.

[15] Haiqing Wang, Zhongqiu Hua, Shujie Peng, Xiang Dong, Liang Dong, Yu Wang*, Effect of CeO2 on the thermoelectric properties of WO3-based ceramics Ceram. Int. 38 (2012) 1133.

[16] Haiqing Wang, Xiang Dong, Shujie Peng, Liang Dong, Yu Wang*, Improvement of thermoelectric properties of WO3 ceramics by ZnO addition, J. Alloys Compd, 527 (2012) 204-209.

[17] Haiqing Wang, Yingjie Gan, Xiang Dong, Shujie Peng，Liang Dong, Yu Wang*，Thermoelectric properties of Ti-doped WO3 ceramics，J. Mater. Sci. Mater. Electron，23（2012）2229-2234.

[18] S.J. Peng, Yu Wang*, H.Q. Wang, X. Dong, L. Dong, Y.J. Gan，Microstructure and Electrical Properties in Low- Sb2O3-Doped Pr6O11 Ceramics, J. Am. Ceram. Soc, 95（2012）2914-2918.

[19] Xiang Dong, Haiqing Wang, Zhongqiu Hua, Shujie Peng，Liang Dong, Yu Wang*, Thermoelectric properties of WO3-based ceramics doped with Co2O3, J. Mater. Sci. Mater. Electron，23 (2012) 1210-1214.

[20] Xiang Dong, Yingjie Gan, Liang Dong, Shujie Peng, Yu Wang*, Improvement of thermoelectric properties of WO3 ceramics by NiO addition, J. Mater. Sci. Mater. Electron, 24（2013）4316-4320.

[21] Xiang Dong, Yingjie Gan, Yu Wang*, Shujie Peng，Liang Dong, Effect of La2O3 on high-temperature thermoelectric properties of WO3, J. Alloys Compd, 581 (2013) 52–55.

[22] Xiang Dong, Yingjie Gan, Liang Dong, Shujie Peng，Yu Wang*，Enhanced thermoelectric properties of WO3 by adding SnO2，J. Mater. Sci. Mater. Electron, 24（2013）4494-4498.

[23] Yingjie Gan, Xiang Dong, Shujie Peng, Liang Dong, Yu Wang*, Microstructure and thermoelectric properties of tungsten trioxide ceramics doped with a low amount of terbium dioxide，J. Mater. Sci. Mater. Electron, 24（2013） 4001-4007.

[24] Yanwen Hu, Yu Wang*, Zhongming Yan, and Jing Ai. Linear-to-Circular Polarization Converters With Both E-Field and H-Field Hybrid Responses. IEEE Transactions 0n Antennas And Propagation, vol. 69, no. 3, pp. 1433-1439, Mar. 2021. 

[25] Ping Wang，Yu Wang*，Yanwen Hu， Hongcheng Zhou， Zhongming Yan， Jing Ai. Ultra-Wideband and Low-Loss Linear-To-Circular Polarizer Based on Multilayer Frequency Selective Surface. Applied Physics A-Materials Science & Processing, vol. 127, no. 2, pp. 1-19, Jan. 2021. 

[26] Huimin Deng, Yu Wang*, Falong Lu, and Zhongming Yan. Optimization of Reluctance Accelerator Efficiency by an Improved Discharging Circuit. Defence Technology, vol. 16, no. 3, pp. 662-667, Jun. 2020. 

[27] Guangcheng Fan, Yu Wang*, Kai Hou, Yu Miao, Yanwen Hu, and Zhongming Yan. Research on Energy Conversion Efficiency of the Reconfigurable Reconnection Electromagnetic Launcher. Energy, vol. 215, pp. 119088, Jan. 2021. 

[28] Le Liang, Yu Wang*, Zhongming Yan, and Weirong Chen. Design and Analysis of a High Temperature Superconducting Thin Film Transformer. Superconductor Science and Technology, vol. 33, no. 5, pp. 055001, May. 2020. 

[29] Zhao He, Zhongming Yan, Yu Wang*, and Le Liang. Simulation and Experimental Analysis of Single Stage TL-Shaped Electromagnetic Launcher [J]. IEEE Transactions on Plasma Science, vol. 48, no. 2, pp. 559-565, Feb. 2020. 

[30] Guangcheng Fan, Yu Wang*, Yanwen Hu, and Zhongming Yan. Research on Energy Recovery System Based on HTSM for the Synchronous Induction Electromagnetic Launcher System. IEEE Transactions on Plasma Science, vol. 48, no. 1, pp. 291-298, Jan. 2020. 

[31] Le Liang, Yu Wang*, Zhongming Yan, Huimin Deng, and Weirong Chen. Exploration and Verification Analysis of YBCO thin film in Improvement of Over-Current Stability for a Battery Unit in a SMES-battery HESS. IEEE Transactions on Applied Superconductivity, vol. 29, no. 8, Dec. 2019, Art. no. 5603806. 

[32] Yingda He, Yu Wang*, and Zhongming Yan. A Tunable Superconducting LC-resonator with a Variable Superconducting Electrode Capacitor Bank For Application in Wireless Power Transfer. Superconductor Science and Technology, vol. 32, no. 12, pp. 12LT02, Dec. 2019. 

[33] Yanwen Hu, Yu Wang*, Qiong Xu, Zhongming Yan, Hongcheng Zhou, and Wenying Zhou. Design of Monofocal And Bifocal Lenses By New Method And Their Application In High-Gain Lens Antenna Based On Chiral Metamaterial. IET Microwaves Antennas & Propagation, vol. 13, no. 13, pp. 2272-2278, Oct. 2019. 

[34] Chenran Zhang, Yu Wang*, Zhongming Yan, and Zhengyou He. Interplay Between Nanoparticles and Water On Dielectric Properties of Nanofluids. IEEE Transactions on Dielectrics and Electrical Insulation, vol. 26, no. 5, pp. 1456-1462, Oct. 2019. 

[35] Yanwen Hu, Yu Wang*, Zhongming Yan, and Hongcheng Zhou. An Ultra-light Polarization Converter Based on Multilayer Copper Wire Array. Applied Physics A-Materials Science & Processing, vol. 125, no. 6, pp. 398, Jun. 2019

[36] Le Liang, Yu Wang*, Zhongming Yan, Zhao He, Ping Wang, and Weirong Chen. Application of High-Temperature Superconducting Small Current Limiting Against Over-Current in Low-Noise Amplifier Electronic Circuit. Physica C-Superconductivity and Its Applications, vol. 563, pp. 28-32, Aug. 2019 

[37] Falong Lu, Yu Wang*, Zhongming Yan, Yanwen Hu, and Huimin Deng. Investigation of the Inner Conical Armature in Synchronous Induction Coilgun. IEEE Transactions on Plasma Science, vol. 47, no. 8, pp. 4203-4208, Aug. 2019 

[38] Le Liang, Yu Wang*, Yanwen Hu, Weirong Chen, and Zhongming Yan. Protection of Electronic Circuit Based on YBCO Superconducting Thin Film Against the Induced Current Interference. IEEE Transactions on Applied Superconductivity, vol. 29, no. 6, pp. 5000606, Sep. 2019 

[39] Zhongming Yan, Kun Luo, Le Liang, Guangcheng Fan, Huiming Deng, and Yu Wang*. Investigation of Single-Stage Double-Layer Saddle Sextupole Field Electromagnetic Launcher. IEEE Transactions on Plasma Science, vol. 47, no. 5, pp. 2159-2165, May. 2019 

[40] Cheng Tan, Yu Wang*, Zhongming Yan, Xinyi Nie, Yonghai He, and Weirong Chen. Superconducting Filter Based on Split-ring Resonator Structures. IEEE Transactions on Applied Superconductivity, vol. 29, no. 4, pp. 1500404, Jun. 2019 

[41] Xiufang Wang, Yu Wang*, Yanwen Hu, Yingda He, and Zhongming Yan. Analysis of Wireless Power Transfer Using Superconducting Metamaterials. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 5500605, Mar. 2019 

[42] Falong Lu, Zhongming Yan, Le Liang, and Yu Wang*. Arrangement Optimization of the Superconducting Pulsed Power Transformer of Inductive Pulsed Power Supply. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 5500305, Mar. 2019

[43] Falong Lu, Zhongming Yan, Huimin Deng, and Yu Wang*. Asynchronous Discharge of an Eight-Module Superconducting Pulsed Power Supply for Driving an Electromagnetic Railgun. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 5500405, Mar. 2019 

[44] Le Liang, Zhongming Yan, Xinyi Nie, Yanwen Hu, Kun Luo, and Yu Wang*. Experiment of Current Limiting Behavior Based on Air-Core Superconducting Transformer and Inductor-Capacitor Series Resonant Limiter. IEEE Transactions on Applied Superconductivity, vol. 29, no. 2, pp. 5500204, Mar. 2019 

[45] Yingda He, Yu Wang*, Le Liang, and Zhongming Yan. Experimental Analysis of Superconducting Line Trap Based on HTS Coil and HTS Electrode Capacitor. IEEE Transactions on Applied Superconductivity, 2019, vol. 29, no. 2, pp. 9001005, Mar. 2019 

[46] Yingda He, Yu Wang*, Yanwen Hu, Weirong Chen, and Zhongming Yan. Superconducting Electrode Capacitor Based on Double-Sided YBCO Thin Film for Wireless Power Transfer Applications. Superconductor Science & Technology, vol.32, no.3, pp. 039502, Mar. 2019 

[47] Guangcheng Fan,Yu Wang*, Qiong Xu, Xinyi Nie, and Zhongming Yan. Design and Analysis of a Novel Three-Coil Reconnection Electromagnetic Launcher. IEEE Transactions on Plasma Science, vol. 47, no.1, pp. 814-820, Jan. 2019 

[48] Hongcheng Zhou, Bingzhong Wang, Yu Wang*, Weirong Chen, and Zhongming Yan. Research on Temporal Cloaked Signal Transmission Based on Time Reversal Technique. Frequenz, vol. 73, no.1-2, pp. 71-76, Jan. 2019 

[49] Hongcheng Zhou, Bingzhong Wang, Yu Wang*, Weirong Chen, and Zhongming Yan. Research on the Acquisition of Time-reversed Electromagnetic Waves Based on Fourier Transform Theory. Microwave and Optical Technology Letters, vol.61, no.1,pp. 191-194, Nov. 2018 

[50] Yingda He, Yu Wang*, Xinyi Nie, Weirong Chen, and Zhongming Yan. High-Temperature Superconducting Capacitor and Its Application to a Superconducting Wireless Power Transfer System. IEEE Transactions on Applied Superconductivity, vol. 29, no.1: 5000207, Jan. 2019 

[51] Yanwen Hu, Yu Wang*, Zhongming Yan, Mingyang Jiang, and Le Liang. Experiment and Analysis on the New Structure of the Coilgun with Stepped Coil Winding. IEEE Transactions on Plasma Science, vol. 46, no.6, pp. 2170-2174, Jun. 2018

[52] Xiufang Wang, Yu Wang*, Guangcheng Fan, Yanwen Hu, Xinyi Nie, and Zhongming Yan. Experimental and Numerical Study of a Magnetic Resonance Wireless Power Transfer System Using Superconductor and Ferromagnetic Metamaterials. IEEE Transactions on Applied Superconductivity, vol. 28, no.5: 1800206, Aug. 2018 

[53] Falong Lu, Xinyi Nie, Yu Wang*, Weirong Chen, and Zhongming Yan. Influence of the Mutual Inductance Between Two HTSPPT Modules on Three Discharge Modes of Superconducting Pulsed Power Supply. IEEE Transactions on Plasma Science, vol. 46, no.8, pp.2993-2998, Aug. 2018 

[54] Yanwen Hu, Yu Wang*, Le Liang, Yingda He, Weirong Chen, and Zhongming Yan. Study on Circularly Polarized Patch Antenna with Asymmetric Chiral Metamaterial. IEEE Antennas and Wireless Propagation Letters, vol. 17, no. 5, pp. 907-910, May. 2018 

[55] Falong Lu, Yu Wang*, Xiufang Wang, Xiaoyong Liao, Zhengyou He, and Zhongming Yan. Study on the Collaborative Discharge of a Double Superconducting Pulsed Power Supply Based on HTSPPT Modules. IEEE Transactions on Applied Superconductivity, vol. 28, no. 2, pp. 5700107, Mar. 2018

......

2011年至今所承担的部分科研项目

1. 国家863高技术研究项目：电磁相关物理机理研究，2012-2013 80万

2. 国家863高技术研究项目：电磁干扰相关机理研究，2013-至今 80万

3. 军口863项目：超导电工技术XXX应用研究 2013-至今 40万

4. 国家自然科学基金项目：高速铁路牵引供电关键设备服役性态演变机理及系统健康诊断（子课题负责人） 2013-至今 40万

5.国家自然科学基金项目，高速动车组牵引变压器轻量化理论与方法研究（子课题负责人）

6. 国家863计划，新型电磁XXX调控技术 150万

7. 国防类军工项目，面向XXX的新型XX研究 50万

8. 国防类军工项目，新型高倍频XXX系统，300万，

研究领域主要包括：1. 基于新材料物理效应的电磁场调控技术与应用 2. 超导电工与电子技术 3. 电磁能储存、转换与传输技术 4.新型电磁推进技术 5.复杂电磁场分析与调控技术 6.新型电磁材料与器件

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