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ESWeP and SPENVIS

workshop “Recent advances in Space Weather products and services”. ESWeP and SPENVIS. Michel Kruglanski Belgian Institute for Space Aeronomy (BIRA-IASB). michel.kruglanski@aeronomie.be. E uropean S pace We ather P ortal Initiated by COST 724 Action http://www.spaceweather.eu/.

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ESWeP and SPENVIS

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  1. workshop “Recent advances in Space Weather products and services” ESWeP and SPENVIS Michel Kruglanski Belgian Institute for Space Aeronomy (BIRA-IASB) michel.kruglanski@aeronomie.be

  2. European Space Weather Portal Initiated by COST 724 Action http://www.spaceweather.eu/ Space Environment Information System ESA Operational software http://www.spenvis.oma.be/ ESWeP and SPENVIS

  3. European Space Weather Portal (ESWeP)

  4. ESWeP: Overview • ESWeP = centralized access point by and forthe European space weather community • Links to SW resources • Access to models • Document repository • Forecast previews • Outreach section

  5. ESWeP: recent changes • SW Document repository • SOTERIA project(Solar-terrestrial investigations and archives, FP7)contact: D. Berghmans (ROB) • Forecast previews • Plasmapause locationcontact: V. Pierrard (BIRA-IASB) • SEP eventcontact: M. Núñez Paz (UMA)

  6. Space Environment Information System (SPENVIS)

  7. Model Input Model Model Output Report Plots Output SPENVIS: Overview • SPENVIS = user-friendly human interface to models of the space environment and its effects. • From model to model • Trajectory generator • Space environment • Environmental effects • For each model • Input parameters • Model run • Report, results & plots • Rapid analysis of problems related to: cosmic rays, solar energetic particles, natural radiation belts, magnetic fields, space plasmas, upper atmosphere, meteoroids and debris, illumination • Extended help

  8. SPENVIS: recent changes (version 4.6.3, February 11, 2010) • Extending to other planets (Mars, Jupiter) • Space environment • Earth radiation belts: IGE2006/POLE • Solar energetic particles: PSYCHIC model (Xapsos et al.) • Cosmics rays: ISO-15390; Nymmik et al 1996 • Environmental effects • Solar cell radiation damage: RDC converter; displacement damage dose • SEU rate: GaAs device; additional algorithms • Surface charging: Burke’s equation; auroral environment • Geant4 tools (simulation of radiation transport) • Magnetocosmics; Planetocosmics • Interface layout; geometry definition

  9. Conclusion: Enjoy ESWeP and SPENVIS at Looking forward for your contribution www.spaceweather.eu www.spenvis.oma.be

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