Comparison of Helium Abundance between ICMEs and Solar Wind near 1 AU

Abstract

The Helium abundance, defined as AHe=nHe/nH× 100, is 8.5 in the photosphere and seldom exceeds 5 in fast solar wind. Previous statistics have demonstrated that AHe in slow solar wind correlates tightly with sunspot number. However, less attention is paid to the solar cycle dependence of AHe within interplanetary coronal mass ejections (ICMEs) and comparing the AHe characteristics of ICMEs and solar wind. In this paper we conduct a statistical comparison of Helium abundance between ICMEs and solar wind near 1 AU with observations of Advanced Composition Explorer from 1998 to 2019, and find that the ICME AHe also exhibits the obvious solar cycle dependence. Meanwhile, we find that the AHe is obviously higher within ICMEs compared to solar wind, and the means within 37\% and 12\% of ICMEs exceed 5 and 8.5, respectively. It is interesting to answer where and how the high Helium abundance originates. Our statistics demonstrate that 21\% (3\%) of ICME (slow wind) AHe data points exceed 8.5 around solar maximum, which decreases dramatically near minimum, while no such high AHe values appear in the fast wind throughout the whole solar cycle. This indicates that the high AHe (e.g., >8.5) emanates from active regions as more ICMEs and slow wind originates from active regions around maximum, and supports that both active regions and quiet-Sun regions are the sources of slow wind. We suggest that the high AHe from active regions could be explained by means of the magnetic loop confinement model and/or photoionization effect.