The Effect of Magnetic Field Line Topology on ICME-related GCR Modulation
Abstract
The large-scale magnetic structure of interplanetary coronal mass ejections (ICMEs) has been shown to affect the galactic cosmic-ray (GCR) flux measured in situ by spacecraft, causing temporary decreases known as Forbush decreases (FDs). In some ICMEs, the magnetic ejecta exhibits a magnetic flux rope (FR) structure; the strong magnetic field strength and closed field line geometry of such ICME FRs have been proposed to act as a shield to GCR transport. In this study, we identify four ICMEs near Earth that drove FDs with similar mean magnetic field strengths (20-25 nT), two ICMEs with more typical mean speeds (~400 km s-1), and two fast (~750 km s-1) ICMEs. Within each speed pairing, we identify an ICME that exhibited an open magnetic field line topology and compare its effect on the GCR flux to that which exhibited a mostly closed topology. We investigate the different mechanisms that contribute to the resulting ICME-related FDs and their recovery and determine which properties, if any, play a more important role than others in driving FDs. We find that much of the GCR response to the ICME events in this study is independent of the open or closed magnetic field line topology of the FR and that features such as the fluctuations in speed, magnetic field structure, and expansion within the FR may play more of a role in determining the smaller-scale structure of the FD profile.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- December 2023
- DOI:
- arXiv:
- arXiv:2310.11310
- Bibcode:
- 2023ApJ...959..133D
- Keywords:
-
- Solar coronal mass ejections;
- Forbush effect;
- Galactic cosmic rays;
- Heliosphere;
- 310;
- 546;
- 567;
- 711;
- Physics - Space Physics;
- Astrophysics - Solar and Stellar Astrophysics