磁云传播的动力学演化过程研究进展

磁云因其独特的磁场结构经常是重大灾害性空间天气的驱动源.近来从磁云的边界层结构、环向通量、大尺度结构等方面关于磁云传播的动力学演化过程的研究取得了一些进展.在磁云边界存在一个由于磁场重联而形成的边界层结构.在磁云传播过程中,这种发生在边界处的磁场重联可能会把磁云的磁场剥蚀掉,进而引起其磁通量绳结构环向通量的减少以及不对称.在磁云内部,经常会观测到多个子通量绳结构.这些特性各异的子通量绳可以通过磁场重联而合并,进而引起磁云磁结构的改变.关于磁云大尺度磁场拓扑位形的演化机制,除了较早提出的交换重联外,目前的研究表明在行星际空间中,磁云边界处的重联过程也可以将磁云闭合或半开放的磁场线打开或断开.尽管在相关研究中已经取得了较大进展,但关于磁云传播的动力学演化过程还有许多问题尚不清楚.在行星际小尺度磁通量绳边界也发现了边界层结构,那么磁云是否会因剥蚀而成为小尺度通量绳?磁云内子通量绳结构在相互作用中会不会引起某些不稳定性而导致整个通量绳系统的崩溃?这些问题的解决还有待于进一步的理论、观测和数值模拟研究.

Progress in the Observation Research of High-frequency Electrostatic Waves in the Near-Sun Solar Wind

The evolution process of the solar wind is an important topic in space physics. High-frequency electrostatic waves have attracted wide attention because they are closely related to the distributions of the solar wind particles. The recently launched Parker Solar Probe (PSP) has observed a variety of high-frequency electrostatic waves in the near-Sun solar wind (solar distance $r<0.3$AU), which provides a new opportunity to study the wave-particle interactions therein. In this review, we introduce the research status of high-frequency electrostatic waves, summarize the observational features of each wave, including the well-known ion-acoustic waves, electron Bernstein waves and some unknown electrostatic waves. We also discuss the possible excitation mechanisms or free energy sources of each wave. Besides, we present our perspectives on the topic.