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王为

日期:2020年11月11日     作者:     来源:      点击:[]

 

王为  副研究员、博士生导师、硕士生导师

四川省特聘专家、成都市特聘专家

四川大学“双百人才工程计划”(校双百人)

四川大学国家双创示范基地“超导与新能源中心”主任

 

 

长期从事高温超导技术在医疗磁体、能源电力、交通等方向的研究,在《Physical Review Applied》、《Applied Physics Letters》、《Journal of Applied Physics》、《Superconductor Science & Technology》、《IEEE Transactions on Applied Superconductivity》等国际SCI期刊发表论文40余篇,发表专利4项,主持国家自然科学基金2项,四川大学优秀青年学者基金1项。

 

长期招收博士及硕士研究生,所有研究生在研期间均有一作SCI论文发表,研究生获得包括“唐立新奖学金”、四川大学一等奖学金等,毕业去向包括:德州仪器公司、中国航天科工集团、日本京都大学Kyoto University(博士全奖)、国家电网等。

 

研究方向:高温超导无线直流电源(磁通泵)、高温超导医疗MRI磁体、高温超导电机、高温超导磁悬浮

 

教育背景:

2010-2014 University of Cambridge(英国剑桥大学),Ph.D.(E.E.)(Cambridge Overseas Trust full scholarship)

2007-2010 西南交通大学,硕士(M.E.)

2003-2007 西南交通大学,学士(C.E.茅以升班)

 

工作经历:

2015-至今 网赌十大网站

 

获得荣誉:

2020 国家自然科学基金青年项目结题优秀(51607117,采用“线性磁通泵”多电源励磁“无绝缘”高温超导线圈磁体)

2020 国际应用超导与电磁装备会议Best Keynote(IEEE 2020 International Conference on Applied

     Superconductivity and Electromagnetic Devices, ASEMD2020)

2018 四川大学先进个人

2016 四川省电机工程学会先进个人

2014 Finalist, the Junior Research Fellowship, Homerton College, University of Cambridge

2014 Finalist, the IET Postgraduate Award, London


学术任职:

2020国际应用超导与电磁装备会议(ASEMD2020)Committee member & 分会主席

2020IEEE中国超导专委会应用超导学术年会Committee member

2018美国应用超导会议(ASC2018)IEEE TAS期刊技术编辑Technic Editor

IEEE TAS/SUST/Rev.Sci.Instr./Physica C/J.Supercond.Nov.Magn.等国际SCI期刊审稿人


部分项目(主持):

2019-2022年国家自然科学基金面上项目(51877143,基于“磁通泵”的高温超导同步电机无刷励磁技术原理及应用

                                    研究),主持

2017-2019年国家自然科学基金青年项目(51607117,采用“线性磁通泵”多电源励磁“无绝缘”高温超导线圈磁体),

                                    主持(结题优秀)

2021-2023年四川省科技厅重点研发项目(用于脑卒中患者的新型车载磁共振超导磁体设备研发),主持

2017-2018年四川大学优秀青年学者科研基金(A类),主持

2015-2018年四川大学科研启动经费,主持


亮点研究Highlights:

1.首次发现宏观“超导磁通量子耦合”效应,解释磁通泵技术原理:http://www.scu.edu.cn/info/1207/4163.htm

2.发明目前国际上最小型无接触式超导直流电源设备——“直线电机式”磁通泵,充磁电流可达线圈阻性;

3.实现单个“直线电机式”磁通泵640 A无接触式直流充磁;

4.发明一种多磁通泵供电系统,有效提高医疗磁体中心磁场30%;

5.搭建基于磁通泵的无刷励磁超导同步电机。

 

部分论文:

[45] Wei Wang*, Tim Coombs, “Macroscopic Magnetic Coupling Effect: The Physical Origination of a High-Temperature Superconducting Flux Pump”, Phy.Rev.Appl. 9, 044022, 2018

[44] Wei Wang*, Tim Coombs, Magnetization of YBCO film with ac travelling magnetic waves of relatively short wavelengths”, Appl.Phys.Lett. 110, 072601, 2017

[43] Wei Wang, Fred Spaven, Mehdi Bagdadi, Tim Coombs*, “Direct Measurement of the Vortex Migration Caused by Travelling Magnetic Wave”, Appl.Phys.Lett. 104, 032602, 2014

[42] Wei Wang, Tim Coombs*, “Vortex Migration Caused by Travelling Magnetic Wave in a 2 Inches Diameter YBa2Cu3O7-δ Thin Film”, J.Appl.Phys.113, 213906, 2013

[41] Wei Wang, Tim Coombs*, “The Magnetization Profiles and AC Magnetization Losses in a Single Layer YBCO Thin film Caused by Travelling Magnetic Field Waves”, Supercond.Sci.Technol.28, 055003, 2015

[40] Wei Wang*, Yong Lei, Shuqian Huang, Peng Wang, Zhen Huang, Qun Zhou, “Charging 2G HTS double pancake coils with a wireless superconducting dc power supply for persistent current operation”, IEEE Trans.Appl.Supercond., 28, 0600804, 2018

[39] Wei Wang, Min Zhang, Zhen Huang, Yujia Zhai, Zhaoyang Zhong, Fred Spaven, Mehdi Baghdadi, Tim Coombs*, “Study of the Penetration of a 2 Inches Diameter YBCO Thin Film with the Travelling Magnetic Wave”, IEEE Trans.Appl.Supercond., vol.24, no.3, pp:4600304, 2014

[38] Wei Wang, R.Semerad, F.Spaven, M.Zhang, C.H.Hsu, Z.Zhong, Y.Chen, Z.Huang, Tim Coombs*, “The Investigation of Sweeping Speed on the Magnetization of a 2 Inches Diameter YBa2Cu3O7-δ Thin Film with the Circular-Type Magnetic Flux Pump”, IEEE Trans.Appl.Supercond., vol.23, no.3, pp:8201104, 2013

[37] Wei Wang, Min Zhang, Chaihao Hsu, Tim Coombs*, “Design Consideration of a Circular Type Magnetic Flux Pump Device”, IEEE Trans.Appl.Supercond., vol.22, no.3, pp:5201304, 2012

[36] Wei Wang, Jiasu Wang*, Qunxu Lin, Wei Liu, Suyu Wang, “Study of High-Tc Superconducting Bulk Moving with Different Speeds in Applied Magnetic Field”, IEEE Trans.Appl.Supercond., vol.20, no.4, pp:2214-2218, 2010

[35] Wei Wang, Jiasu Wang*, Xinglin Liao, Suyu Wang, “Hybrid Levitation while Incorporating Bulk YBCO with DC Coil”, IEEE Trans.Appl.Supercond., vol.20, no.3, pp:903-906, 2010

[34]  Wei Wang, Jiasu Wang*, Wei Liu, Jun Zhen, Qunxu Lin, Siting Pan, Zigang Deng, Guangtong Ma, Suyu Wang, “Characteristic Study of High-Tc Superconducting Maglev Under Side-Loading”, Physica C, 469, 188-191, 2009

[33] Yuntian Zhang, Wei Wang*(通讯作者), Hanxin Ye, Xueqing Wang, Yunfei Gao, Qun Zhou, Xueshan Liu, Yong Lei , “Compact Linear-Motor Type Flux Pumps with Different Wavelengths for High-Temperature Superconducting Magnets”, IEEE Trans.Appl.Supercond., 30, 5000305 (2020)

[32] Hanxin Ye, Wei Wang*(通讯作者), Yuntian Zhang, Xueqing Wang, Yunfei Gao, Qun Zhou, Xueshan Liu, Yong Lei, “Measuring the Output Voltage of a Linear-Motor Type Flux Pump with an Insulated HTS Coil”, IEEE Trans.Appl.Supercond., 30, 5000305 (2020)

[31] Xueqing Wang, Wei Wang*(通讯作者), Yunfei Gao, Yong Lei, Hanxin Ye, Yuntian Zhang, Qun Zhou, Yingwei Zhu, Xueshan Liu, “An HTS NI Magnet Charged by Multiple Flux Pumps: Construction and Test of the Prototype”, IEEE Trans.Appl.Supercond., 30, 4602005 (2020)

[30] Yunfei Gao, Wei Wang*(通讯作者), Xueqing Wang, Hanxin Ye, Yuntian Zhang, Yongjie Zeng, Zhen Huang, Qun Zhou, Xueshan Liu, Yingwei Zhu, Yong Lei, “Design, Fabrication, and Testing of a YBCO Racetrack Coil for an HTS Synchronous Motor with Brushless Exciter”, IEEE Trans.Appl.Supercond.,30, 4601005 (2020)

[29] Xueqing Wang, Wei Wang*(通讯作者), Yong Lei, Yunfei Gao, Shuqian Huang, Xueshan Liu, Qun Zhou, “Electromagnetic Design of 1.5 T No-Insulation REBCO Coil System Charged by Multi-Flux Pumps for Dedicated MRI”, IEEE Trans.Appl.Supercond., 29,4601805(2019)

[28] Yunfei Gao, Wei Wang*(通讯作者), Xueqing Wang, Shuqian Huang, Yong Lei, Xueshan Liu, Qun Zhou, “Design and Study of a 2G HTS Synchronous Motor with Brushless HTS Flux Pump Exciters”, IEEE Trans.Appl.Supercond., 29,5201705( 2019)

[27] Shuqian Huang, Wei Wang*(通讯作者), Lei Yong, Peng Wang, Zhen Huang, Qun Zhou, “Measurement of the Current in 2G HTS Coil With Rogowski Coil in Cryogenic Environment”, IEEE Trans.Appl.Supercond. 29, 9000205(2019)

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