Litcius/Paper detail

Testing the impact of coronal mass ejections on cosmic-ray intensity modulation with algorithm selected Forbush decreases

O. Okike, Ogochukwu C. Nwuzor, F. C. Odo, E. U. Iyida, J. E. Ekpe, A. E. Chukwude

2020Monthly Notices of the Royal Astronomical Society23 citationsDOI

Abstract

ABSTRACT The relationship between coronal mass ejections (CMEs) and Forbush decreases (FDs) has been investigated in the past. But the selection of both solar events are difficult. Researchers have developed manual and automated methods in efforts to identify CMEs as well as FDs. While scientists investigating CMEs have made significant advancement, leading to several CME catalogues, including manual and automated events catalogues, those analyzing FDs have recorded relatively less progress. Till date, there are no comprehensive manual FD catalogues, for example. There are also paucity of automated FD lists. Many investigators, therefore, attempt to manually select FDs which are subsequently used in the analysis of the impact of CMEs on galactic cosmic-ray (GCR) flux depressions. However, some of the CME versus FD correlation results might be biased since manual event identification is usually subjective, unable to account for the presence of solar-diurnal anisotropy which characterizes GCR flux variations. The current paper investigates the relation between CMEs and FDs with emphasis on accurate and careful Forbush event selection.

Topics & Concepts

Coronal mass ejectionPhysicsForbush decreaseCosmic rayAstrophysicsEvent (particle physics)Flux (metallurgy)Coronal planeAstronomySolar windNuclear physicsPlasmaMedicineMetallurgyMaterials scienceRadiologySolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAtmospheric Ozone and Climate