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IMPACT SWEA electron measurements and the temporal evolution of the solar wind Andrea Opitz CESR, Toulouse, France for the SWEA team and its supporters.

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Presentation on theme: "IMPACT SWEA electron measurements and the temporal evolution of the solar wind Andrea Opitz CESR, Toulouse, France for the SWEA team and its supporters."— Presentation transcript:

1 IMPACT SWEA electron measurements and the temporal evolution of the solar wind Andrea Opitz CESR, Toulouse, France for the SWEA team and its supporters SWG 2010 Spring, Dublin, Ireland

2 SWEA core density proxy SWEA status reported by J-A. Sauvaud and J. Luhmann High energy excellent measurements: PADs, Q, etc.  SWEA data available at http://stereo.cesr.fr Low energy solar wind electrons suppressed < 45 eV  No core distribution SW electron core reconstruction from secondary electrons Secondaries produced in instrument are unveiled Secondaries depend on density of SW electrons arriving on SWEA  Derive SW electron density proxy from secondary electrons Fedorov, Opitz, Sauvaud et al. 2010 submitted at SSR

3 SWEA core density proxy Ne: SWEA by CESR, Np: PLASTIC by UNH

4 STEREO timelag Opitz et al. 2009, SolPhys PLASTIC velocity SWEA density STA STB

5 SWEA electron core density Opitz et al. 2010a, submitted at Solar Physics

6 Temporal evolution of the solar wind PLASTIC velocity  0.5 day: ~0.95 2 days: ~0.85 SWEA density  0.5 day: ~0.80 2 days: ~0.65 Opitz et al. 2009a, Solar Physics Opitz et al. 2010a, submitted at Sol. Phys.

7 SW temporal evolution

8 SW prediction for heliosphere Opitz et al. 2009, SolPhys August 2007 Opitz et al. 2010b, submitted at SolPhys

9 References Fedorov A., Opitz A., Sauvaud J-A., Luhmann J. G., Curtis D. W., and Larson D. E. SWEA in-flight properties. Reconstruction of the SWEA transmission function by numerical simulation and data analysis Space Science Review, submitted, 2010 Opitz A., Karrer R., Wurz P., Galvin A. B., Bochsler P., et al. Temporal evolution of the solar wind bulk velocity at solar minimum by correlating the STEREO A and B PLASTIC measurements Solar Physics, vol. 256, p365, 2009 Opitz A., Sauvaud J-A., Fedorov A., Wurz P., Luhmann J. G., Lavraud B., Russell C. T., Kellogg P., Briand C., Henri P., Malaspina D. M., Louarn P., Curtis D. W., Penou E., Karrer R., Galvin A. B., Larson D. E., Dandouras I., and Schroeder P. Temporal evolution of the solar wind electron core density at solar minimum by correlating the STEREO A and B SWEA measurements Solar Physics, submitted, 2010a Opitz A., Fedorov A., Wurz P., Szego K., Sauvaud J-A., Karrer R., Galvin A. B., Barabash S., and Ipavich F. Solar wind bulk velocity throughout the inner heliosphere from multi-spaceraft measurements Solar Physics, submitted, 2010b Sauvaud J-A., Larson D., Aoustin C., Curtis D., Medale J-L., Fedorov A., Rouzaud J., Luhmann J., Moreau T., Schroeder P., Louarn P., Dandouras I., and Penou E. The IMPACT Solar Wind Electron Analyzer (SWEA) Space Sci. Rev., vol. 136, p227, 2008

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