Space Weather Modelling: from Science to Applications
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Space Weather Modelling: from Science to Applications Chair: M. Dinguirard ONERA
description
Space Weather Modelling: from Science to Applications. Chair: M. Dinguirard ONERA. Objectives. Session 2 "from science to applications" is intended to show how we can go now from the scientific models towards an operational space weather modeling. Programme. Very dense programme : - PowerPoint PPT Presentation
Transcript of Space Weather Modelling: from Science to Applications
Space Weather Modelling: from Science to Applications
Chair: M. Dinguirard ONERA
ObjectivesSession 2 "from science to applications" is intended to
show how we can go now from the scientific models towards an operational space weather modeling
Programme
• Very dense programme :7 oral presentations (4 invited) and 28 very interesting
posters
Several disciplines : Solar physics (better comprehension of solar event mechanisms) Magnetosphere (modelling of the interaction and identification of
the good proxis) Ionosphere and atmosphere (how they react to space weather) Space Weather forecast and applications
Models and applications mixed
Posters (1/4) : Solar and Magnetosphere physics
Can the solar EUV spectrum be reconstructed from proxies ? Dudok de Wit T.
Working on Proton Flux Prediction Software to E > 10 MEV Del Pozo Garcia E.
Interaction of the coronal mass ejection with the terrestrial magnetosphere on September 24-27, 1998.
Belenkaya E.
Kinetic models for solar wind-magnetosphere interactions Pierrard V.
Comparison of simulated and observed field-aligned current structures
Nenovski P.
Modeling of magnetospheric VLF response to atmospheric infrasonic waves
Bespalov P.A.
Posters (2/4) : Magnetic fields
On modelling of magnetic field in magnetosheath region. Romashets E.
Multiband Temporal Analysis of Selected Potentially Geoeffective Solar Flares
Messerotti M.
The SSC that Initiated the Bastille Day Storm of 15-16 July 2000 Alexeev I.
Longitude Sector Geomagnetic Activity Indices Menvielle M.
Regional Geomagnetic Activity and Global Indices Trichtchenko L.
Geoeffectivness of Solar Energetic Events Estimated by Artificial Neural Networks
Hejda P.
Comparison between ANN Dst forecasting algorithms over the 2002-2005 period.
Amata E.
Posters (3/4) : Ionosphere/Atmosphere Classification of X-ray Solar flares regarding their effects on the lower
ionosphere electron density profileGrubor D.
Modelling time evolution of D-region electron density enhancements induced by X-ray Solar flares: VLF versus GOES12 data
Zigman V.
The Behavior of TEC Fluctuations in High Latitudes Ionosphere during Severe Geomagnetic Disturbances
Krankowski A.
Simulation of Geomagnetically Induced Currents:Past, Present and Future Events
Wik M.
Ionospheric Module for Nowcasting the Ionic and Neutral State of the Middle Atmosphere
Egorova T.
Toward a global data assimilating model of the ionosphere electric potential Kartalev M.
Particle Fluxes in the Atmosphere: Calculations and Experimental Data Matthiae D.
Polar cap absorption events of the year 2005 at Mario Zucchelli Station Antarctica
Perrone L.
Variations of the ozone profiles due to geomagnetic disturbances during periods of solar maximum and solar minimum
Velinov P.
Effects of the Extreme Cosmic Ray Ground Level Enhancement on January 20, 2005, at Aircraft Altitude
Desorgher L.
Simulating Range and Doppler Distortion of ALTAIR V/UHF Radar Waveforms during Ionospheric Scintillation
Rogers N.
Posters (4/4) : Space Weather
Space Weather Effects on Future Debris Populations in ESA’s MASTER Model
Ariafar Sh.
Automated now-cast modeling of the magnetosheath - magnetosphere system
Kartalev M.
The SIDC, RWC Belgium: quality control of space weather forecasts
Vanlommel P.
Medium-range (1 to 4 days) space weather and geomagnetic forecasting
Gleisner H.
Oral presentations• 09:15 Numerical Simulations of the Solar Corona and Coronal Mass
Ejections. Jacobs, C.
• 09:35 The Solar Energetic Particle Environment: How to Transition from Science to Engineering Models. Gabriel, S.B.
• 09:55 The Importance of Wave Acceleration and Loss for Dynamic Radiation Belt Models. Horn, R.
• 10:15 Ring Current Models: How Well can they be Applied for Space Weather Modelling Purposes? Ganushkina, N.
• 10:30 Coffee Break
• 10:55 Modelling the Thermosphere-Ionosphere Response to Space Weather Effects: the Problems with the Inputs. Aylward,
A.
• 11:15 An Assessment of the NRLMSISE-00 Density Thermosphere Description in Presence of Space Weather Events.
Lathuillère, C.
• 11:30 The QinetiQ Atmospheric Radiation Model and Solar Particle Events Dyer, C.
• 11:45 Radiation Protection Operations in Space. Zapp, N.
