# Muon Excess at Sea Level during the Progress of a Geomagnetic Storm and   High Speed Stream Impact Near the Time of Eath's Heliospheric Sheet Crossing

**Authors:** C. R. A. Augusto, C. E. Navia, M. N. de Oliveira, A. A. Nepomuceno, V., Kopenkin, T. Sinzi

arXiv: 1706.00775 · 2017-08-16

## TL;DR

This study investigates muon flux variations at sea level during a 2015 geomagnetic storm, revealing possible evidence of high-energy particle injections into Earth's atmosphere linked to a high speed stream impact and heliospheric current sheet crossing.

## Contribution

It provides new insights into the relationship between geomagnetic storms, high speed streams, and muon flux increases at ground level, highlighting potential atmospheric chemistry effects.

## Key findings

- Detected a muon flux increase coincident with HSS impact
- Observed a Forbush decrease followed by flux enhancement
- Estimated energy fluence of particles reaching Earth

## Abstract

In this article we present results of the study on the association between the muon flux variation at ground level, registered by the \textit{\textit{New-Tupi}} muon telescopes ($22^0 53'00''S,\; 43^0 06'13'W$; 3 m above sea level) and a geomagnetic storm of 25\,--\,29 August 2015 that has raged for several days as a result of a coronal mass ejection (CME) impact on Earth's magnetosphere. A sequence of events started with an M3.5 X-ray class flare on 22 August 2015 at 21:19 UTC. The \textit{\textit{New-Tupi}} muon telescopes observed a Forbush decrease (FD) triggered by this geomagnetic storm, with onset on 26 August 2015. After the Earth crossed a heliospheric current sheet (HCS), an increase in the particle flux was observed on 28 August 2015 by spacecrafts and ground level detectors. The observed peak was in temporal coincidence with the impact of a high speed stream (HSS). We study this increase, that has been observed with a significance above 1.5\% by ground level detectors in different rigidity regimes. We also estimate the lower limit of the energy fluence injected on Earth. In addition, we consider the origin of this increase, such as acceleration of particles by shock waves on the front of the HSS and the focusing effect of the HCS crossing. Our results show possible evidence of a prolonged energetic (up to GeV energies) particle injection within the Earth atmosphere system, driven by the HSS. In most cases these injected particles are directed to polar regions. However, the particles from the high energy tail of the spectrum can reach middle latitudes, and that could have consequences for the atmospheric chemistry, for instance, the creation of NOx species may be enhanced and can lead to increased ozone depletion. This topic requires further study.

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/1706.00775/full.md

## References

53 references — full list in the complete paper: https://tomesphere.com/paper/1706.00775/full.md

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Source: https://tomesphere.com/paper/1706.00775