The temporal and latitudinal dependences of turbulence driven by pickup ions in the outer heliosphere

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Bingbing Wang, Lingling Zhao, Paria Abouhamzeh, G. Zank, L. Adhikari
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Abstract

The distribution of turbulence in the heliosphere remains a mystery, due to the complexity in not only modeling the turbulence transport equations but also identifying the drivers of turbulence that vary with time and spatial location. Beyond the ionization cavity (a few astronomical units (AU) from the Sun), the turbulence is driven predominantly by freshly created pickup ions (PUIs), in contrast to the driving by stream shear and compression. Understanding the source characteristics is necessary to refine turbulence transport models and interpret measurements of turbulence and solar wind temperature in the outer heliosphere. Using a recent latitude-dependent solar wind speed model and the ionization rate of neutral interstellar hydrogen (H), we investigate the temporal and spatial variation in the strength of low-frequency turbulence driven by PUIs from 1998 to 2020. We find that the driving rate is stronger during periods of high solar activity and at lower latitudes in the outer heliosphere. The driving rates for parallel and anti-parallel propagating (relative to the background magnetic field) slab turbulence have different spatial and latitude dependences. The calculated generation rate of turbulence by PUIs is an essential ingredient to investigate the latitude dependence of turbulence in the outer heliosphere, which is important to understand the heating of the distant solar wind and the modulation of cosmic rays.
外日光层拾取离子驱动湍流的时间和纬度相关性
日球层湍流的分布仍然是一个谜,因为不仅要模拟湍流输运方程,而且要识别随时间和空间位置变化的湍流驱动因素都很复杂。在电离腔(距离太阳几个天文单位)之外,湍流主要是由新产生的吸收离子(pui)驱动的,而不是由气流剪切和压缩驱动的。了解源的特征对于完善湍流输运模式和解释湍流和太阳风温度在外层日球层的测量是必要的。利用最近建立的纬度相关的太阳风速度模型和中性星际氢的电离率,研究了1998 - 2020年pui驱动的低频湍流强度的时空变化。我们发现,在太阳活动高峰期和外日球层低纬度地区,驱动率更强。平行和反平行传播(相对于背景磁场)平板湍流的驱动率具有不同的空间和纬度依赖性。pui计算的湍流产生率是研究外日球层湍流的纬度依赖性的重要组成部分,这对理解遥远太阳风的加热和宇宙射线的调制具有重要意义。
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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