Multi-source connectivity as the driver of solar wind variability in the heliosphere

Author:

Yardley Stephanie L.ORCID,Brooks David H.ORCID,D’Amicis RaffaellaORCID,Owen Christopher J.ORCID,Long David M.ORCID,Baker DebORCID,Démoulin PascalORCID,Owens Mathew J.ORCID,Lockwood MikeORCID,Mihailescu Teodora,Coburn Jesse T.ORCID,Dewey Ryan M.ORCID,Müller Daniel,Suen Gabriel H. H.ORCID,Ngampoopun NawinORCID,Louarn Philippe,Livi Stefano,Lepri SueORCID,Fludra AndrzejORCID,Haberreiter Margit,Schühle UdoORCID

Abstract

AbstractThe ambient solar wind that fills the heliosphere originates from multiple sources in the solar corona and is highly structured. It is often described as high-speed, relatively homogeneous, plasma streams from coronal holes and slow-speed, highly variable, streams whose source regions are under debate. A key goal of ESA/NASA’s Solar Orbiter mission is to identify solar wind sources and understand what drives the complexity seen in the heliosphere. By combining magnetic field modelling and spectroscopic techniques with high-resolution observations and measurements, we show that the solar wind variability detected in situ by Solar Orbiter in March 2022 is driven by spatio-temporal changes in the magnetic connectivity to multiple sources in the solar atmosphere. The magnetic field footpoints connected to the spacecraft moved from the boundaries of a coronal hole to one active region (12961) and then across to another region (12957). This is reflected in the in situ measurements, which show the transition from fast to highly Alfvénic then to slow solar wind that is disrupted by the arrival of a coronal mass ejection. Our results describe solar wind variability at 0.5 au but are applicable to near-Earth observatories.

Publisher

Springer Science and Business Media LLC

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