Chang, Q.; Xu, X.; Xu, Q.; Zhong, J.; Xu, J. et al. [..] (2019) Multiple-point modeling the Parker spiral configuration of the solar wind magnetic field at the solar maximum of solar cycle 24. Astrophys. J., Bd. 884, S. 102.
Wang, G.; Zhang, T. L.; Gao, Z. L.; Wu, M. Y.; Wang, G. Q. et al. [..] (2019) Propagation of EMIC waves inside the plasmasphere: A two-event study. J. Geophys. Res., Bd. 124, S. 8396–8415.
Chang, Q.; Xu, X.; Xu, Q.; Zhong, J.; Xu, J. et al. [..] (2019) Multiple-point modeling the Parker spiral configuration of the solar wind magnetic field at the solar maximum of solar cycle 24. Astrophys. J., Bd. 884, S. 102.
Persson, M.; Futaana, Y.; Nilsson, H.; Wieser, G.; Hamrin, M. et al. [..] (2019) Heavy ion flows in the upper ionosphere of the Venusian north pole. J. Geophys. Res., Bd. 124, S. 4597-4607.
Wu, M.; Lu, Q.; Volwerk, M.; Nakamura, R.; Zhang, T.-L. (2018) Electron acceleration behind a wavy dipolarization front. Astrophys. Space Sci., Bd. 363, S. 22.
Meng, L. F.; Pan, Z. H.; Yi, Z.; Wang, G. Q.; Zhang, T. L. (2018) Error properties of the fluxgate magnetometer offset based on Davis-Smith method. Chin. J. Geophys., Bd. 61, S. 3545-3551.
Xiao, S. D.; Zhang, T. L. (2018) Solar cycle variation of the Venus magnetic barrier. Planet. Space Sci., Bd. 158, S. 53-62.
Chong, G. S.; Pope, S. A.; Walker, S. N.; Frahm, R. A.; Zhang, T. et al. [..] (2018) A statistical study of ionospheric boundary wave formation at Venus. J. Geophys. Res., Bd. 123, S. 7668-7685.
Chang, Q.; Xu, X.; Zhang, T.; Chai, L.; Wei, Y. et al. [..] (2018) Magnetic field near Venus: Comparison between solar cycle 24 and previous cycles. Astrophys. J., Bd. 867, S. 129.
Collinson, G.; III, L. B.; Omidi, N.; Sibeck, D.; Espley, J. et al. [..] (2018) Solar wind induced waves in the skies of Mars: Ionospheric compression, energization, and escape resulting from the impact of ultralow frequency magnetosonic waves generated upstream of the Martian bow shock. J. Geophys. Res., Bd. 123, S. 7241-7256.
Xiao, S. D.; Zhang, T. L.; Vörös, Z. (2018) Magnetic fluctuations and turbulence in the Venusian magnetosheath downstream of different types of bow shock. J. Geophys. Res., Bd. 123, S. 8219-8226.
Shan, L.; Mazelle, C.; Meziane, K.; Romanelli, N.; Ge, Y. S. et al. [..] (2018) The quasi-monochromatic ULF wave boundary in the Venusian foreshock: Venus Express observations. J. Geophys. Res., Bd. 123, S. 374-384.
Dimmock, A. P.; Alho, M.; Kallio, E.; Pope, S. A.; Zhang, T. L. et al. [..] (2018) The response of the Venusian plasma environment to the passage of an ICME: Hybrid simulation results and Venus Express observations. J. Geophys. Res., Bd. 123, S. 3580-3601.
Wang, Y.; Shen, C.; Liu, R.; Liu, J.; Guo, J. et al. [..] (2018) Understanding the twist distribution inside magnetic flux ropes by anatomizing an interplanetary magnetic cloud. J. Geophys. Res., Bd. 123, S. 3238-3261.
Fränz, M.; Echer, E.; Souza, A.; Dubinin, E.; Zhang, T. L. (2017) Ultra low frequency waves at Venus: Observations by the Venus Express spacecraft. Planet. Space Sci., Bd. 146, S. 55-65.
Liu, J. K.; Ge, Y. S.; Zhang, T. L. (2017) The statistical analysis on magnetic holes inside the Earth magnetotail plasma sheet (in Chinese). Chin. J. Geophys., Bd. 60, S. 873-878.
Xiao, S. D.; Zhang, T. L.; Wang, G. Q. (2017) Statistical study of low-frequency magnetic field fluctuations near Venus during the solar cycle. J. Geophys. Res., Bd. 122, S. 8409-8418.
Chen, Y. Q.; Zhang, T. L.; Xiao, S. D.; Wang, G. Q. (2017) Characteristics of ionospheric flux rope at the terminator observed by Venus Express. J. Geophys. Res., Bd. 122, S. 8858–8867.
Lu, H.; Li, Y.; Cao, J.; Ge, Y.; Zhang, T. L. et al. [..] (2017) Numerical simulation on the multiple dipolarization fronts in the magnetotail. Phys. Plasmas, Bd. 24, S. 102903.
Möstl, C.; Isavnin, A.; Boakes, P. D.; Kilpua, E. K. J.; Davies, J. A. et al. [..] (2017) Modeling observations of solar coronal mass ejections with heliospheric imagers verified with the Heliophysics System Observatory. Space Weather, Bd. 15, S. 955-970.