Space Weather Modeling Capabilities Assessment: Auroral Precipitation and High‐Latitude Ionospheric Electrodynamics

The interaction of the solar wind with the Earth&#8217;s magnetic &#64257;eld produces geomagnetic activity, which is critically dependent on the orientation of the interplanetary magnetic &#64257;eld (IMF). Most solar wind coupling functions quantify this dependence on the IMF orientation with the so-called IMF clock angle in a way, which is symmetric with respect to the sign of the By component. However, recent studies have shown that IMF By is an additional, independent driver of high-latitude geomagnetic activity, leading to higher (weaker) geomagnetic activity in Northern Hemisphere (NH) winter for By > 0 (By < 0). For NH summer the dependence on the By sign is reversed. We quantify the size of this explicit By-e&#64256;ect with respect to the solar wind coupling function, both for northern and southern high-latitude geomagnetic activity. We show that for a given value of solar wind coupling function, geomagnetic activity is about 40% stronger for By > 0 than for By < 0 in NH winter. We also discuss recent advances in the physical understanding of the By-effect. Our results highlight the importance of the IMF By-component for space weather and must be taken into account in future space weather modeling.

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Equatorial Ionospheric Electrodynamics Over Jicamarca During the 6–11 September 2017 Space Weather Event

Journal of Geophysical Research Space Physics ◽

10.1029/2018ja026295 ◽

2019 ◽

Vol 124 (2) ◽

pp. 1292-1306 ◽

Cited By ~ 5

Author(s):

Ruilong Zhang ◽

Libo Liu ◽

Huijun Le ◽

Yiding Chen

Keyword(s):

Space Weather ◽

Weather Event ◽

Ionospheric Electrodynamics ◽

Space Weather Event

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Space Weather Modeling Capabilities Assessment: Neutral Density for Orbit Determination at low Earth orbit

Space Weather ◽

10.1029/2018sw002027 ◽

2018 ◽

Vol 16 (11) ◽

pp. 1806-1816 ◽

Cited By ~ 9

Author(s):

S. Bruinsma ◽

E. Sutton ◽

S. C. Solomon ◽

T. Fuller-Rowell ◽

M. Fedrizzi

Keyword(s):

Space Weather ◽

Orbit Determination ◽

Low Earth Orbit ◽

Neutral Density ◽

Earth Orbit ◽

Weather Modeling

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Integration of RAM-SCB into the Space Weather Modeling Framework

Journal of Atmospheric and Solar-Terrestrial Physics ◽

10.1016/j.jastp.2018.01.007 ◽

2018 ◽

Vol 177 ◽

pp. 160-168 ◽

Cited By ~ 5

Author(s):

Daniel T. Welling ◽

Gabor Toth ◽

Vania K. Jordanova ◽

Yiqun Yu

Keyword(s):

Space Weather ◽

Modeling Framework ◽

Weather Modeling

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The Virtual Space Weather Modelling Centre

Journal of Space Weather and Space Climate ◽

10.1051/swsc/2020012 ◽

2020 ◽

Vol 10 ◽

pp. 14 ◽

Cited By ~ 1

Author(s):

Stefaan Poedts ◽

Andrey Kochanov ◽

Andrea Lani ◽

Camilla Scolini ◽

Christine Verbeke ◽

...

Keyword(s):

Space Weather ◽

Simulation Models ◽

Virtual Space ◽

High Level Architecture ◽

Integrated Environment ◽

Geographically Distributed ◽

Weather Modeling ◽

Visualization Tools ◽

End To End ◽

High Level

Aims. Our goal is to develop and provide an open end-to-end (Sun to Earth) space weather modeling system, enabling to combine (“couple”) various space weather models in an integrated tool, with the models located either locally or geographically distributed, so as to better understand the challenges in creating such an integrated environment. Methods. The physics-based models are installed on different compute clusters and can be run interactively and remotely and that can be coupled over the internet, using open source “high-level architecture” software, to make complex modeling chains involving models from the Sun to the Earth. Visualization tools have been integrated as “models” that can be coupled to any other integrated model with compatible output. Results. The first operational version of the VSWMC is accessible via the SWE Portal and demonstrates its end-to-end simulation capability. Users interact via the front-end GUI and can interactively run complex coupled simulation models and view and retrieve the output, including standard visualizations, via the GUI. Hence, the VSWMC provides the capability to validate and compare model outputs.

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Evaluation of pipeline corrosion rates due to enhanced telluric activity associated with space weather

10.5194/egusphere-egu2020-3747 ◽

2020 ◽

Author(s):

Larisa Trichtchenko

Keyword(s):

Space Weather ◽

High Latitude ◽

Metal Loss ◽

Geomagnetic Variations ◽

Corrosion Rates ◽

Northern Areas ◽

Protection Systems ◽

Weather Impacts ◽

Telluric Currents ◽

Pipeline Corrosion

Telluric currents are the natural phenomena especially pronounced in the high latitude areas (above 60 degrees). These currents, as any stray current, are able to interfere with pipeline cathodic protection systems, and came into wide consideration with construction of pipelines in northern areas, where the geomagnetic variations are more severe and last for prolonged times.The paper will explain the approach developed for estimation of pipeline corrosion rates due to telluric activity, and results of its applications.Statistical evaluation of the occurrence rates for the pipe-to-soil potential difference values based on modelling of the pipeline response to the geomagnetic activity in two different locations (high latitude and mid-latitude) will be combined with the method developed for calculation of corrosion rate (metal loss). The presented approach and results of its application to different types of pipelines located at different latitudes can be used as a practical guidance for the assessments of the space weather impacts on pipeline operations.

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