MA Guangtong
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- Doctoral Supervisor
- Master Tutor
- E-Mail:
- School/Department:State Key Laboratory of Traction Power
- Administrative Position:Vice director
- Business Address:State Key Laboratory of Traction Power, Jiuli Campus, Southwest Jiaotong University
- Contact Information:490925918@qq.com guangtma@163.com Tel:028-87603310
- Degree:Doctor of engineering
- Professional Title:Researcher
- Academic Titles:Winner of Excellent Young Scientists Fund
- Alma Mater:Southwest Jiaotong University
- Supervisor of Doctorate Candidates
- Supervisor of Master's Candidates
- Discipline:Engineering For The Operation of Vehicles
In Electrical Engineering
Contact Information
- PostalAddress:
- Research
Research Field
●Theory and Technology of Superconducting Maglev Train
●Magnetic Levitation System Dynamics and Damping Control
●High Temperature Superconducting Magnet and its Low Temperature System
●Traction Motor and Fault-tolerant Control
●New-type Linear Motor Theory and Technology
Paper Publications
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- [57]GuangTong Ma*, Zhitao Wang, Kun Liu, Hangyu Qian, and Chao Wang, “Potentials of an Integrated Levitation, Guidance and Propulsion System by a Superconducting Transverse Flux Linear Motor,” IEEE Transactions on Industrial Electronics, vol. 65, no. 9, pp.7548-7557, Sep. 2018. (SCI Index: 000431397500071; EI Index: 20175004531853)
- [56]Zhaoying Yan, Gang Li, Jun Luo, Jingsong Zeng, Weihai Zhang, Yiyu Wang, Wenjiao Yang & Guangtong Ma. Vibration control of superconducting electrodynamic suspension train with electromagnetic and sky-hook damping methods.Vehicle System Dynamics, DOI: 10.1080/00423114.2021.1948080.
- [55]Kun Liu, Wenjiao Yang, Guangtong Ma*, Loïc Quéval, Tianyong Gong, Changqing Ye, Xiang Li, and Zhen Luo, “Experiment and simulation of superconducting magnetic levitation with REBCO coated conductor stacks,” Superconductor Science and Technology, vol. 31, no. 1, Jan. 2018. Art. ID. 015013. (SCI Index: 000428746800015; EI Index: 20180404667517).
- [54]Pengbo Zhou, Guangtong Ma*, and Loïc Quéval, “Transition frequency of transport ac losses in high temperature superconducting coated conductors,” Journal of Applied Physics, vol.126, no.6, Aug. 2019. Art. ID. 063901. (SCI Index: 000481451900008; EI Index: 20193307313565)
- [53]Zhaoying Yan, Jingsong Zeng, Weihai Zhang, Piji Feng, Yongzeng Li, Chunxing Yao, Guangtong Ma*, “Dynamic Simulation of Vibration Characteristics and Ride Quality of Superconducting EDS Train Considering Body with Flexibility,” IEEE Transactions on Applied Superconductivity, vol.31, no.5, Aug. 2021, Art. no. 3602105.
Patents
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- [5] Guangtong Ma, An electric suspension static experiment simulation method and its implementation structure, Patent No. ZL201811248537.4, September 8, 2020:
- [6] 马光同等, 一种阶梯形超导磁体及具有其的电动悬浮系统,专利号ZL201910025899.5, 2020年7月17日授权:
- [4] Guangtong Ma, A nitrogen fixation cryogenic vessel for bearing superconducting magnets, Patent No. ZL201810932046.5, May 15, 2020:
- [3] Guangtong Ma, A method for construction of hybrid magnetic levitation state based on superconducting bulk and superconducting coil, Patent No.ZL201610565711.2, July 31, 2018:
- [3] 马光同等,一种采用闭环恒流高温超导线圈实现磁悬浮状态的方法,专利号ZL201610373082.3,2018年7月31日授权:
Published Books
- [B2] Guang-Tong Ma and Yi-Yun Lu. Numerical Simulations of HTS Maglev, In Jia-Su Wang and Su-Yu Wang (Ed.), High Temperature Superconducting Magnetic Levitation, Published by Peking University Press, pp277–327, 2016 (ISBN: 978-7-301-27581-8).2021.
- [B1] Guang-Tong Ma*, Jiang-Su Wang and Su-Yu Wang. 3-D finite-element modelling of a maglev system using bulk high-Tc superconductor and its application, In AdirMoysésLuiz (Ed.), Applications of High-Tc Superconductivity, Published by INTECH, pp119–146, 2011 (ISBN: 978-953-307-308-8).2021.
- 3-D finite-element modelling of a maglev system using bulk high-Tc superconductor and its application, In AdirMoysésLuiz (Ed.), Applications of High-Tc Superconductivity.INTECH.2019.
- High Temperature Superconducting Magnetic Levitation.Peking University Press.2019.
Research Projects
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- [3] National Natural Science Foundation of China, Excellent Youth Science Fund Project, 51722706, non-contact electromagnetic coupling, 1.3 million RMB from January 2018 to December 2020
- [2] National Natural Science Foundation of China, General Project, 52073318, Research on the vertical dynamics performance an vibration reduction control of superconducting moving maglev train based on magneto-electricity-force coupling, 2021-01 to 2024-12, 580,000 RMB
- [1] National Natural Science Foundation of China, Key Project, 52037008, Research on Multi-performance Optimization and Equivalent Experiment Method of High Temperature Superconducting Dynamic Suspension Magnet, 2021-01 to 2025-12, 3 million RMB
- [1] 国家自然科学基金委员会,重点项目,52037008,高温超导电动悬浮磁体的多性能优化与等效实验方法研究,2021-01至2025-12,300万元,在研,主持
- [2] 国家自然科学基金委员会,面上项目,52072318,基于磁-电-力耦合的超导电动磁悬浮列车垂向动力学性能及减振控制研究,2021-01至2024-12,58万元,在研,主持