张欢 |
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1.Zhang, H., & Zhou, Y. H.* (2020). Reconstructing the electrical structure of dust storms from locally observed electric field data. Nature Communications, 11, 5072. 2.Zhang, H., & Zhou, Y. H. * (2020). Effects of three-dimensional electric field on saltation during dust storms: An observational and numerical study. Atmospheric Chemistry and Physics, 20, 14801-14820. 3。Zhang, H., & Zheng, X.* (2018). Quantifying the large-scale electrification equilibrium effects in dust storms using field observations at Qingtu Lake Observatory. Atmospheric Chemistry and Physics, 18, 17087-17097. 4.Zhang, H., Bo, T. L., & Zheng, X. * (2017). Evaluation of the electrical properties of dust storms by multi-parameter observations and theoretical calculations. Earth and Planetary Science Letters, 461, 141-150. 5.Zhang, H., Zheng, X. J., & Bo, T. L. * (2014). Electric fields in unsteady wind-blown sand. The European Physical Journal E, 37(2), 13. 6.Bo, T. L., Zhang, H., & Zheng, X. J. * (2014). Charge-to-mass ratio of saltating particles in wind-blown sand. Scientific reports, 4, 5590. 7.Zhang, H., Zheng, X. J., & Bo, T. * (2013). Electrification of saltating particles in wind‐blown sand: Experiment and theory. Journal of Geophysical Research: Atmospheres, 118(21), 12-086. 8.Bo, T., Zhang, H., Zhu, W., & Zheng, X. * (2013). Theoretical prediction of electric fields in wind‐blown sand. Journal of Geophysical Research: Atmospheres, 118(10), 4494-4502. 9.Bo, T. L., Zhang, H., Hu, W. W., & Zheng, X. J. * (2013). The analysis of electrification in windblown sand. Aeolian Research, 11, 15-21. |
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