A prominence eruption from the Sun to the Parker Solar Probe with multi-spacecraft observations

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
T. Niembro, D. Seaton, P. Hess, D. Berghmans, V. Andretta, K. Reeves, P. Riley, M. Stevens, F. Landini, C. Sasso, C. Verbeeck, R. Susino, M. Uslenghi
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引用次数: 1

Abstract

In the early hours of 2021 April 25, the Solar Probe Cup on board Parker Solar Probe registered the passage of a solar wind structure characterized by a clear and constant He2+/H+ density ratio above 6% during three hours. The He2+ contribution remained present but fainting and intermittent within a twelve-hour window. Solar Orbiter and Parker Solar Probe were in nearly perfect quadrature, allowing for optimal observing configuration in which the material impacting the Parker Solar Probe was in the Solar Orbiter plane of the sky and visible off the limb. In this work, we report the journey of the helium-enriched plasma structure from the Sun to the Parker Solar Probe by combining multi-spacecraft remote-sensing and in situ measurements. We identify an erupting prominence as the likely source, behind the Sun relative to the Earth, but visible to multiple instruments on both the Solar-Terrestrial Relations Observatory-A and Solar Orbiter. The associated CME was also observed by coronagraphs and heliospheric imagers from both spacecrafts before reaching the Parker Solar Probe at 46 R⊙, 8 h after the spacecraft registered a crossing of the heliospheric current sheet. Except for extraordinary helium enhancement, the CME showed ordinary plasma signatures and a complex magnetic field with an overall strength enhancement. The images from the Wide-field Imager for Solar Probe (WISPR) aboard Parker Solar Probe show a structure entering the field of view a few hours before the in situ crossing, followed by repetitive transient structures that may be the result of flying through the CME body. We believe this to be the first example of a CME being imaged by WISPR directly before and during being detected in situ. This study highlights the potential of combining the Parker Solar Probe in situ measurements in the inner heliosphere with simultaneous remote-sensing observations in (near) quadrature from other spacecrafts.
从太阳到帕克太阳探测器的一次突出喷发,多航天器观测
2021年4月25日凌晨,帕克太阳探测器上的太阳探测器杯记录到一个太阳风结构在三小时内通过,其特征是He2+/H+密度比高于6%。He2+的贡献仍然存在,但在12小时窗口内减弱和间歇性。太阳轨道飞行器和帕克太阳探测器几乎完美正交,从而实现了最佳观测配置,即撞击帕克太阳探测器的材料位于太阳轨道飞行器的天空平面内,并且可以从肢体上看到。在这项工作中,我们结合多航天器遥感和原位测量,报道了富氦等离子体结构从太阳到帕克太阳探测器的旅程。我们确定爆发的日珥是可能的来源,相对于地球,它位于太阳后面,但日地关系天文台A和太阳轨道器上的多个仪器都可以看到。在46 R⊙到达帕克太阳探测器之前,两艘航天器的日冕仪和日层成像仪也观察到了相关的日冕物质抛射,这是在航天器记录到穿过日层电流片8小时后。除了异常的氦增强外,CME显示出普通的等离子体特征和复杂的磁场,总体强度增强。帕克太阳探测器上的太阳探测器宽视场成像仪(WISPR)的图像显示,在原位穿越前几个小时,一个结构进入视野,随后是重复的瞬态结构,这可能是飞越日冕物质抛射体的结果。我们认为这是WISPR在原位探测之前和期间直接对CME成像的第一个例子。这项研究强调了将帕克太阳探测器在内日球层的原位测量与其他航天器在(近)正交方向的同时遥感观测相结合的潜力。
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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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