Detection of Coronal Mass Ejections at L1 and Forecast of Their Geoeffectiveness
Journal
Date Issued
2019
Author(s)
•
•
•
Bianchi, Tiziano
•
•
•
Magli, Enrico
•
•
Abstract
A novel tool aimed to detect solar coronal mass ejections (CMEs) at the Lagrangian point L1 and to forecast their geoeffectiveness is presented in this paper. This approach is based on the analysis of in situ magnetic field and plasma measurements to compute some important magnetohydrodynamic quantities of the solar wind (the total pressure, the magnetic helicity, and the magnetic and kinetic energy), which are used to identify the CME events, that is their arrival and transit times, and to assess their likelihood for impacting the Earths magnetosphere. The method is essentially based on the comparison of the topological properties of the CME magnetic field configuration and of the CME energetic budget with those of the quasi-steady ambient solar wind. The algorithm performances are estimated by testing the tool on solar wind data collected in situ by the Wind spacecraft from 2005 to 2016. In the scanned 12 yr time interval, it results that (i) the procedure efficiency is of 86% for the weakest magnetospheric disturbances, increasing with the level of the geomagnetic storming, up to 100% for the most intense geomagnetic events, (ii) zero false positive predictions are produced by the algorithm, and (iii) the mean delay between the potentially geoeffective CME detection and the geomagnetic storm onset if of 4 hr, with a 98% 2-8 hr confidence interval. Hence, this new technique appears to be very promising in forecasting space weather phenomena associated to CMEs.
Volume
885
Issue
2
Start page
120
Issn Identifier
0004-637X
Ads BibCode
2019ApJ...885..120T
Rights
open.access
File(s)![Thumbnail Image]()
Loading...
Name
Telloni_2019_ApJ_885_120.pdf
Description
Pdf editoriale
Size
1.63 MB
Format
Adobe PDF
Checksum (MD5)
7bff74f064ff90393868a49d45c93b56