The Earth’s lithosphere and mantle respond to Space Weather through time-varying, depth-dependent induced magnetic and electric fields. Understanding the properties of these electromagnetic fields is a key consideration in modelling the hazard to technological systems from Space Weather. In this paper we review current understanding of these fields, in terms of regional and global-scale geology and geophysics. We highlight progress towards integrated European-scale models of geomagnetic and geoelectric fields, specifically for the purposes of modelling geomagnetically induced currents in power grids and pipelines
Geomagnetic storms induce electric fields on the ground, which are the source of Geomagnetically Ind...
During magnetic storms, solar‐magnetosphere‐ionosphere‐Earth interactions give rise to geomagnetical...
Abrupt changes of geomagnetic field can make large induced electric field and resultant electric cur...
Our capability to model the near-space physical phenomena has gradually reached a level enabling mo...
We forecast the global effects of space weather on the geoelectric and geomagnetic fields using a no...
Abstract—Long-term variations in strong geomagnetic storms are analyzed and linked to electric field...
This review, offered for the first time in the Russian scientific literature, is devoted to various ...
Copyright © 2013 Risto Pirjola. This is an open access article distributed under the Creative Common...
Ground-based technological systems, such as power grids, can be affected by geomagnetically induced ...
[1] A series of 100-year extreme geoelectric field and geomagnetically induced current (GIC) scenari...
International audienceUnderstanding the magnetic environment of our planet and the geomagnetic field...
The space environment near Earth is constantly subjected to changes in the solar wind flow generated...
Significant geoelectric fields are produced by the interaction of rapidly varying magnetic fields wi...
Geoscience Australia's geomagnetic observatory network covers one-eighth of the Earth. The first Aus...
The external geomagnetic field, arising from the magnetospheric and ionospheric current systems, dev...
Geomagnetic storms induce electric fields on the ground, which are the source of Geomagnetically Ind...
During magnetic storms, solar‐magnetosphere‐ionosphere‐Earth interactions give rise to geomagnetical...
Abrupt changes of geomagnetic field can make large induced electric field and resultant electric cur...
Our capability to model the near-space physical phenomena has gradually reached a level enabling mo...
We forecast the global effects of space weather on the geoelectric and geomagnetic fields using a no...
Abstract—Long-term variations in strong geomagnetic storms are analyzed and linked to electric field...
This review, offered for the first time in the Russian scientific literature, is devoted to various ...
Copyright © 2013 Risto Pirjola. This is an open access article distributed under the Creative Common...
Ground-based technological systems, such as power grids, can be affected by geomagnetically induced ...
[1] A series of 100-year extreme geoelectric field and geomagnetically induced current (GIC) scenari...
International audienceUnderstanding the magnetic environment of our planet and the geomagnetic field...
The space environment near Earth is constantly subjected to changes in the solar wind flow generated...
Significant geoelectric fields are produced by the interaction of rapidly varying magnetic fields wi...
Geoscience Australia's geomagnetic observatory network covers one-eighth of the Earth. The first Aus...
The external geomagnetic field, arising from the magnetospheric and ionospheric current systems, dev...
Geomagnetic storms induce electric fields on the ground, which are the source of Geomagnetically Ind...
During magnetic storms, solar‐magnetosphere‐ionosphere‐Earth interactions give rise to geomagnetical...
Abrupt changes of geomagnetic field can make large induced electric field and resultant electric cur...