In this paper, we analyze the interplanetary causes of eight great geomagnetic storms (D-st less than or equal to -200 nT) during the solar maximum (2000-2001). The result shows that the interplanetary causes were the intense southward magnetic field and the notable characteristic among the causal mechanism is compression. Six of eight great geomagnetic storms were associated with the compression of southward magnetic field, which can be classified into (1) the compression between ICMEs (2) the compression between ICMEs and interplanetary medium. It suggests that the compressed magnetic field would be more geoeffective. At the same time, we also find that half of all great storms were related to successive halo CMEs, most of which originated from the same active region. The interactions between successive halo CMEs usually can lead to greater geoeffectiveness by enhancing their southward field B, interval either in the sheath region of the ejecta or within magnetic clouds (MCs). The types of them included: the compression between the fast speed transient flow and the slow speed background flow, the multiple MCs, besides shock compression. Further, the linear fit of the D-st versus (-(VB) over bar (Z))(alpha)(Deltat)(beta) gives the weights of -(VB) over bar (Z) and Deltat as alpha = 2.51 and beta = 0.75, respectively. This may suggest that the compression mechanism, with associated intense B-s rather than duration, is the main factor in causing a great geomagnetic storm.

• 出版日期2005-4
• 单位中国科学技术大学