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王传兵

基本信息
办公电话: 
0551-63602677
邮箱: 
cbwang@ustc.edu.cn
科研领域: 
主要研究方向为空间等离子体物理、太阳射电物理以及空间天气学。
个人简介
发表文章

1.       Wang, C. B. , 2015, A Scenario for the Fine Structures of Solar Type IIIb Radio Bursts Based on Electron Cyclotron Maser Emission, Astrophysical Journal, 806, 1, 34, DOI: 10.1088/0004-637X/806/1/34.

2.       Wu, C. S.; Yoon, P. H.; Wang, C. B. , 2015, A theory of heating of quiet solar corona, Physics of Plasmas, 22, 3, 032901, DOI: 10.1063/1.4913579.

3.       Wu, C. S.; Yoon, P. H.; Wang, C. B. , 2014, Ion temperature in plasmas with intrinsic Alfven waves Physics of Plasmas, 21, 10, 104507, DOI: 10.1063/1.4897376.

4.       Zhao, G. Q.; Wu, D. J.; Wang, C. B. , 2014, A study of line widths and kinetic parameters of ions in the solar corona, Astrophysics and Space Science, 353, 2, 373-378, DOI: 10.1007/s10509-014-2072-y.

5.       Wang, C. B.; Wang, Bin; Lee, L. C. , 2014, Compound Effect of Alfv,n Waves and Ion-Cyclotron Waves on Heating/Acceleration of Minor Ions via the Pickup Process, Solar Physics, 289, 10, 3895-3916, DOI: 10.1007/s11207-014-0550-6.

6.       Su, ZP et al., 2014, Intense duskside lower band chorus waves observed by Van Allen Probes: Generation and potential acceleration effect on radiation belt electrons, Journal of Geophysical Research-Space Physics, 119, 6, 4266-4273, DOI: 10.1002/2014JA019919.

7.       Dmitriev, A. V., Suvorova, A. V., Chao, J. K., Wang, C. B., Rastaetter, L., Panasyuk, M. I., ... & Myagkova, I. N., 2014, Anomalous dynamics of the extremely compressed magnetosphere during 21 January 2005 magnetic storm. Journal of Geophysical Research: Space Physics.

8.        Wang Chuan-Bing; Wei Jing-Dong; Wang Bin; Wang Shui, 2013, Physical Process for the Pick-Up of Minor Ions by Low-Frequency Alfven Waves, Chinese Physics Letters, 30(5),

9.       Weng, C. J.; Lee, L. C.; Kuo, C. L.; Wang, C. B., 2013, Effects of ion-neutral collisions on Alfven waves: The presence of forbidden zone and heavy damping zone, Physics of Plasmas, 20(3)

10.    Wu, C. S.; Wang, C. B.; Wu, D. J.; Lee, K. H., 2012, Resonant wave-particle interactions modified by intrinsic Alfvenic turbulence, Physics of Plasmas, 19(8)

11.    Wu Ji; Sun Weiying; Zheng Jianhua; Zhang Cheng; Liu Hao; Yan Jingye; Wang Chi; Wang Chuanbing; Wang Shui, 2011, Imaging interplanetary CMEs at radio frequency from solar polar orbit, Advances in Space Research, 48(5), pp 943-954

12.    Pan, Z. H.; Wang, C. B.; Wang, Yuming; Xue, X. H., 2011, Correlation Analyses Between the Characteristic Times of Gradual Solar Energetic Particle Events and the Properties of Associated Coronal Mass Ejections, Solar Physics, 270(2), pp 593-607

13.    Wang, Bin; Wang, C. B.; Yoon, P. H.; Wu, C. S., 2011, Stochastic heating and acceleration of minor ions by Alfven waves, Geophysical Research Letters, 38(5),

14.    Yoon, P. H.; Wang, C. B.; Wu, C. S., 2009, Pitch-angle diffusion of ions via nonresonant interaction with Alfvenic turbulence, Physics of Plasmas, 16(10), p 102102

15.    Wang, Bin; Wang, C. B., 2009, Heating rate of ions via nonresonant interaction with turbulent Alfven waves with ionization and recombination, Physics of Plasmas, 16(8), p 082902

16.    Wu, C. S.; Yoon, P. H.; Wang, C. B., 2009, On nonresonant proton heating via intrinsic Alfvenic turbulence, Physics of Plasmas, 16(5), p 054503

17.    Wang, C. B.; Wu, C. S., 2009, Pseudoheating of protons in the presence of Alfvenic turbulence, Physics of Plasmas, 16(2), p 020703

18.    Yoon, Peter H.; Wang, C. B.; Wu, C. S., 2007, Ring-beam driven maser instability for quasiperpendicular shocks, Physics of Plasmas, 14(2), p 022901

19.    Wu, CS; Wang, CB; Lu, QM, 2006, Density depletion in a coronal flux tube associated with solar radio emission,  Solar Physics, 235(1-2), pp 317-329

20.    Wang, CB; Wu, CS; Yoon, PH, 2006, Heating of ions by Alfven waves via nonresonant interactions, Physical Review Letters, 96(12), p 125001

21.    Zheng, HN; Zhang, YY; Wang, S; Wang, CB; Li, Y, 2006, Propagation of fast magnetoacoustic waves in stratified solar atmosphere, Chinese Physics Letters, 23(2), pp 399-402

22.    Xue, XH; Wang, CB; Dou, XK, 2005, An ice-cream cone model for coronal mass ejections, Journal of Geophysical Research, 110(A8), p A08103

23.    Chen, YP; Wang, CB; Zhou, GC, 2005, Maser instability driven by an electron beam with losscone-beam distribution, Acta Physica Sinica, 54(7), pp 3221-3227

24.    Wu, CS; Wang, CB; Zhou, GC; Wang, S; Yoon, PH, 2005, Altitude-dependent emission of type III solar radio bursts, Astrophysical Journal, 621(2), pp 1129-1136

25.    Wang, CB; Chao, JK, 2003, Comment on "Effects of fast and slow solar wind on the correlation between interplanetary medium and geomagnetic activity" by P. Ballatore, Journal of Geophysical Research, 108(A10), p 1386

26.    Wang, CB; Chao, JK; Lin, CH, 2003, Influence of the solar wind dynamic pressure on the decay and injection of the ring current, Journal of Geophysical Research, 108(A9), p 1341

27.    Wang, CB; Zhao, JK; Cheng, HH; Li, Y; Wang, S; Sun, W;     Akasofu, SI, 2002, Prediction of the IMF B-z using 3-D kinematic code, Chinese Journal of Geophysics, 45(6), pp 749-758

28.    Yoon, PH; Wu, CS; Wang, CB, 2002, Generation of type III solar radio bursts in the low corona by direct amplification. II. Further numerical study, Astrophysical Journal, 576(1), pp 552-560

29.    Wu, CS; Wang, CB; Yoon, PH; Zheng, HN; Wang, S, 2002, Generation of type III solar radio bursts in the low corona by direct amplification, Astrophysical Journal, 575(2), pp 1094-1103

30.    Wang, CB; Wang, S, 2001, Pressure influences on the coupling of double tearing mode in a multiple current sheet, Chinese Journal of Geophysics, 44(2), pp 145-153

31.    Wang, CB; Zheng, HN; Wang, S, 2000, Numerical studies on the formation of magnetic loops, Communications in Theoretical Physics, 34(2), pp 317-320

32.    Wang, CB; Li, D, 1999, Influence of higher order toroidicity on coupling of tearing modes, Acta Physica Sinica (Overseas Edition), 8(12), pp 908-912

33.    LI, D; WANG, CB, 1995, INFLUENCE OF POLOIDAL ROTATION ON THE TOROIDALLY COUPLED TEARING MODE, Physics of Plasmas, 2(4), pp 1026-1028