硕博导师：<p>SCI论文<br /> 1. Mingyang Wang，et al. An effective way to reduce AC loss of second-generation high temperature superconductors，Superconductor Science and Technology，VOL. 32，01LT01，2019.&nbsp;<br /> 2. Mingyang Wang，et al. A novel REBCO conductor design to reduce screening-current field in REBCO magnets，Physica Scripta，VOL. 94，105803，2019.<br /> 3. Mingyang Wang，et al. Three-Dimensional Numerical Study on Transport AC Loss of Soldered-Stacked-Square-Twisted (3S-T) Wire，IEEE Transactions on Applied Superconductivity，VOL. 29，NO. 2，MARCH 2019<br /> 4. Mingyang Wang，et al. Study on the Screening Current Induced Field of a Novel Narrow HTS Tape with 1 mm Width，IEEE Transactions on Applied Superconductivity，VOL. 29，NO. 5，AUGUST 2019.<br /> 5. Mingyang Wang，et al. Reduction of Screening Current-Induced Field in a REBCO Coil Wound by Solder-Square-Stacked Wire，IEEE Transactions on Applied Superconductivity，VOL. 29，NO. 5，AUGUST 2019.<br /> 6. Mingyang Wang，et al. Performance Study on the No-Insulation HTS Coil wound with Narrow-Stacked Wire，IEEE Transactions on Applied Superconductivity，VOL. 30，NO. 4，JUNE 2020<br /> 7. Li Z Y，Li Y Q，Wang M Y，et al. Evaluation of electrical and mechanical characteristics for a twisted soldered-stacked-square (3S) HTS wire with 1 mm widthJ. IEEE Transactions on Applied Superconductivity，2018，28(3): 1-5.&nbsp;<br /> 8. Song M，Li L，Wang M，et al. Numerical study on lightning current performance of striated YBCO-coated conductorJ. IEEE Transactions on Applied Superconductivity，2019，29(2): 1-5.&nbsp;<br /> 9. Fangliang Dong，Zhen Huang，Xiaoyong Xu，Mingyang Wang，Xiyuan Teng，Luning Hao，and Zhijian Jin. Method and process of mechanical evaluation of a 2g hts magnet system for maglev applicationsJ. IEEE Transactions on Applied Superconductivity，2020，30(4): 1-5.&nbsp;<br /> 10. Dong Fangliang，Huang Zhen，Qiu Derong，Wang Mingyang，Zhao Anfeng，Zhu Binbin，Wang Longbiao，Jin Zhijian. Studies on the features of characteristic resistance of a no-insulation superconducting coil in energizing and de-energizing processesJ. Physica C: Superconductivity and its Applications，2018，551: 33-40.&nbsp;<br /> 11. Fangliang Dong，Zhen Huang，Derong Qiu，Yunhao Pan，Mingyang Wang，Anfeng Zhao，Binbin Zhu，and Zhijian Jin. An overcurrent controlled HTS persistent current switch without any additional switching triggersJ. IEEE Transactions on Applied Superconductivity，2018，29(1): 1-9.&nbsp;<br /> 12. Yunhao Pan，Wei Wu，Jie Sheng，Xiaofen Li，Fangliang Dong，Mingyang Wang，Yue Zhao，Zhiwei Zhang，Zhuyong Li，Zhen Huang，Zhiyong Hong and Zhijian Jin. An equivalent homogenized model for non-superconducting joints made by ReBCO coated conductorsJ. Superconductor Science and Technology，2018，31(9): 095004.&nbsp;<br /> 13. Yunhao Pan，Wei Wu，Shuiliang Zhen，Fangliang Dong，Longbiao Wang，Jingyuan Chu，Mingyang Wang，Zhiyong Hong，and Zhijian Jin. Investigation on Current Distribution and Joint Resistance-Overlap Length Relationship for Non-Superconducting JointsJ. IEEE Transactions on Applied Superconductivity，2018，29(2): 1-5.&nbsp;<br /> 14. Xiaoyong Xu，Zhen Huang，Xiangyu Huang，Luning Hao，Jiamin Zhu，Boyang Shen，Wan Li，Junjie Jiang，Mingyang Wang，and Zhijian Jin. Numerical study on AC loss of an HTS coil placed on laminated silicon steel sheets with distorted AC transport currentsJ. IEEE Transactions on Applied Superconductivity，2020，30(4): 1-5.&nbsp;<br /> EI论文<br /> 1. Wang M，Li Z，Hong Z，et al. Numerical study on AC loss of soldered-stacked-square (3S) HTS wire with 1 mm widthC//2018 IEEE International Conference on Applied Superconductivity and Electromagnetic Devices (ASEMD). IEEE，2018: 1-3.</p>

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