Staff list

Junfeng Wang

author: time:2017-07-05 clicks:

Title:Professor

Phone:(027) 87792334-8115

Email:jfwang#hust.edu.cn (#to@)


Academic Areas

Experimental physics in high magnetic fields

Experimental techniques in pulsed fields


Self-statement

Professor Wang graduated from Department of Physics of Wuhan University in 2000 and received his Ph.D. Degree in 2006. He joined in Wuhan National High Magnetic Field Center (WHMFC) of Huazhong University of Science and Technology from 2008. During 2009-2011, he worked in the Institute for Solid State Physics (ISSP) of the University of Tokyo as a postdoctoral researcher. Now he is a principle investigator (PI) of the experimental stations in the WHMFC. His research interests include measurement techniques and physics in high magnetic fields. More than 50 papers have been published till now.


Academic Degrees

1. 09/2003-07/2006: Ph.D. in Condensed Matter Physics, Wuhan University

2. 09/2000-07/2003: Master in Condensed Matter Physics, Wuhan University

1. 09/1996-07/2000: Bachelor in Applied Physics, Wuhan University


Professional Experience/ Positions

1. 12/2011-Present: Professor, Wuhan National High Magnetic Field Center and School of Electrical and Electronic Engineering, Huazhong University of Science and Technology

2. 08/2009-11/2011: Postdoctoral researcher, Institute for Solid State Physics, the University of Tokyo, Japan

3. 01/2008-07/2009: Associate Professor, Wuhan National High Magnetic Field Center, Huazhong University of Science and Technology

4. 08/2006-12/2007: Lecturer, School of Remote Sensing and Information Engineering, Wuhan University


Selected Publications

1. Zhang Chenglong, Xu Suyang, Wang C.M., Lin Ziquan, Du Z.Z., Guo Cheng, Lee Chi-Cheng, Lu Hong, Feng Yiyang, Huang Shin-Ming, Chang Guoqing, Hsu Chuang-Han, Liu Haiwen, Lin Hsin, Li Liang, Zhang Chi, Zhang Jinglei, Xie Xincheng, Neupert Titus, Hasan M. Zahid, Lu Haizhou*, WANG JUNFENG*, Jia Shuang*. Magnetic tunneling induced Weyl node annihilation in TaP. Nature Physics, 2017, in press

2. Zhang Chenglong, Xu Suyang, Belopolski Llya, Yuan Zhujun, Lin Ziquan, Tong Bingbing, Bian Guang, Alidoust Nasser, Lee Chi-Cheng, Huang Shin-Ming, Chang Tay-Rong, Chang Guoqing, Hsu Chuang-Han, Jeng Horng-Tay, Neupane Madhab, S.Sanchez Daniel, Zheng Hao, WANG JUNFENG et al. Signatures of the Adler-Bell-Jackiw chiral anomaly in a Weyl fermion semimetal. Nature Communications, 2016, 7, 10735

3. Yuan Zhujun, Lu Hong, Liu Yongjie, WANG JUNFENG et al. Large magnetoresistance in compensated semimetals TaAs2and NbAs2. Physical Review B, 2016, 93, 184405

4. Wang Huichao, Li Chaokai, Liu Haiwen, Yan Jiaqiang, WANG JUNFENG et al. Chiral anomaly and ultrahigh mobility in crystalline HfTe5. Physical Review B, 2016, 93, 165127

5. Zhang Chenglong, Guo Cheng, Lu Hong, Zhang Xiao, Yuan Zhujun, Lin Ziquan, WANG JUNFENG et al. Large magnetoresistance over an extended temperature regime in monophosphides of tantalum and niobium. Physical Review B, 2015, 92, 041203(R)

6. Zhao Yanfei, Liu Haiwen, Zhang Chenglong, Wang Huichao, WANG JUNFENG et al. Anisotropic Fermi surface and quantum limit transport in high mobility three-dimensional Dirac semimetal Cd3As2. Physical Review X, 2015, 5, 031037

7. WANG JUNFENG, Yang Ming et al. Magnetic-field-induced transitions and evolution of magnetotransport properties in quasi-two-dimensional KMo6O17in the charge-density-wave phase. Physical Review B, 2014, 89, 035137

8. Kim Heon-Jung, Kim Hi-Seok, WANG JUNFENG et al. Dirac versus Weyl fermions in topological insulators: Adler-Bell-Jackiw anomaly in transport phenomena. Physical Review Letters, 2013, 111, 246603

9. Kim Heon-Jung, Kim Hi-Seok, WANG JUNFENG et al. Topological phase transitions driven by magnetic phase transitions in FexBi2Te3(0≤x≤0.1) single crystals. Physical Review Letters, 2013, 110, 136601

10. Kondo Araki, WANG JUNFENG et al.High-field magnetization and magnetic phase transition in CeOs2Al10. Physical Review B, 2011, 83, 180415(R)

11. WANG JUNFENG et al. High magnetic field induced phases and half-magnetization plateau in the S=1 kagome compound Ni3V2O8. Physical Review B, 2011, 84, 220407(R)

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Tel: 86 27 87792334
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