Open Access
Issue |
J. Space Weather Space Clim.
Volume 3, 2013
EU-FP7 funded space weather projects
|
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Article Number | A12 | |
Number of page(s) | 17 | |
DOI | https://doi.org/10.1051/swsc/2013030 | |
Published online | 07 March 2013 |
- Agueda, N., R. Vainio, D. Lario, and B. Sanahuja, Injection and interplanetary transport of near-relativistic electrons: modeling the impulsive event on 2000 May 1, Astrophys. J., 675, 1601–1613, 2008. [Google Scholar]
- Agueda, N., R. Vainio, D. Lario, B. Sanahuja, E. Kilpua, and S. Pohjolainen, Modeling solar near-relativistic electron events. Insights into solar injection and interplanetary transport conditions, A&A, 507, 981–993, 2009. [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
- Agueda, N., R. Vainio, and B. Sanahuja, A database of >20 keV electron green’s functions of interplanetary transport at 1 AU, Astrophys. J. Suppl. Ser., 202, 18, 2012. [Google Scholar]
- Bougeret, J.-L., M.L. Kaiser, P.J. Kellogg, R. Manning, K. Goetz, et al., The radio and plasma wave investigation on the wind spacecraft, Space Sci. Rev., 71, 231–263, 1995. [NASA ADS] [CrossRef] [Google Scholar]
- Cane, H.V., I.G. Richardson, and T.T. von Rosenvinge, A study of solar energetic particle events of 1997–2006: their composition and associations, J. Geophys. Res., 115, A08101, 2010. [NASA ADS] [CrossRef] [Google Scholar]
- Cheng, X., J. Zhang, O. Olmedo, A. Vourlidas, M.D. Ding, and Y. Liu, Investigation of the formation and separation of an extreme-ultraviolet wave from the expansion of a coronal mass ejection, Astrophys. J., 745, L5, 2012. [NASA ADS] [CrossRef] [Google Scholar]
- Gold, R.E., S.M. Krimigis, S.E. Hawkins III, D.K. Haggerty, D.A. Lohr, E. Fiore, T.P. Armstrong, G. Holland, and L.J. Lanzerotti, Electron, proton, and alpha monitor on the advanced composition explorer spacecraft, Space Sci. Rev., 86, 541–562, 1998. [Google Scholar]
- Gopalswamy, N., S. Yashiro, G. Michalek, G. Stenborg, A. Vourlidas, S. Freeland, and R. Howard, The SOHO/LASCO CME catalog, Earth, Moon and Planets, 104, 295–313, 2009. [Google Scholar]
- Huttunen-Heikinmaa, K., E. Valtonen, and T. Laitinen, Proton and helium release times in SEP events observed with SOHO/ERNE, A&A, 442, 673–685, 2005. [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
- Kaiser, M.L., T.A. Kucera, J.M. Davila, O.C. St. Cyr, M. Guhathakurta, and E. Christian, The STEREO mission: an introduction, Space Sci. Rev., 136, 5–16, 2008. [NASA ADS] [CrossRef] [Google Scholar]
- Kerdraon, A., and J.-M. Delouis, The Nançay radioheliograph, in Coronal physics from radio and space observations, edited by G., Trottet, Springer Lecture Notes in Physics Series, 483, 192–201, 1997. [Google Scholar]
- Kontogeorgos, A., P. Tsitsipis, C. Caroubalos, X. Moussas, P. Preka-Papadema et al., The improved ARTEMIS IV multichannel solar radio spectrograph of the University of Athens, Exp. Astron., 21, 41–55, 2006. [NASA ADS] [CrossRef] [Google Scholar]
- Kunow, H., G. Wibberenz, G. Green, R. Müeller-Mellin, M. Witte, and H. Hempe, The Kiel University experiment for measuring cosmic radiation between 1.0 and 0.3 AU E 6, Raumfahrtforschung, 19, 253–258, 1975. [Google Scholar]
- Lanzerotti, L.J., R.E. Gold, K.A. Anderson, T.P. Armstrong, R.P. Lin, S.M. Krimigis, M. Pick, E.C. Roelof, E.T. Sarris, and G.M. Simnett, Heliosphere instrument for spectra, composition and anisotropy at low energies, A&AS, 92, 349–363, 1992. [Google Scholar]
- Laurenza, M., E.W. Cliver, J. Hewitt, M. Storini, A.G. Ling, C.C. Balch, and M.L. Kaiser, A technique for short-term warning of solar energetic particle events based on flare location, flare size, and evidence of particle escape, Space Weather, 7, S04008, 2009. [NASA ADS] [CrossRef] [Google Scholar]
- Lecacheux, A., The Nançay Decameter Array: a useful step towards giant, new generation radio telescopes for long wavelength radio astronomy. in Radio Astronomy at Long Wavelengths, edited by R.G., Stone, K.W. Weiler, M.L. Goldstein, and J.-L. Bougeret, AGU Monograph Series, 119, 321–328, 2000. [CrossRef] [Google Scholar]
- Lin, R.P., K.A. Anderson, S. Ashford, C. Carlson, D. Curtis, et al., A three-dimensional plasma and energetic particle investigation for the wind spacecraft, Space Sci. Rev., 71, 125–153, 1995. [NASA ADS] [CrossRef] [Google Scholar]
- Lin, R.P., B.R. Dennis, G.J. Hurford, D.M. Smith, A. Zehnder, et al., The Reuven Ramaty High-Energy Solar Spectroscopic Imager (RHESSI), Sol. Phys., 210, 3–32, 2002. [Google Scholar]
- Lintunen, J., and R. Vainio, Solar energetic particle event onset as analyzed from simulated data, A&A, 420, 343–350, 2004. [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
- Malandraki, O., N. Agueda, A. Papaioannou, K.-L. Klein, E. Valtonen, et al., Scientific analysis within SEPServer – new perspectives in solar energetic particle research: the case study of the 13 July 2005 event, Sol. Phys., 281, 333–352, 2012. [Google Scholar]
- Mann, G., H. Aurass, W. Voigt, and J. Paschke, Preliminary observations of solar type II bursts with the new radiospectrograph in Tremsdorf (Germany), Coronal Streamers, Coronal Loops, and Coronal and Solar Wind Composition, ESA SP, 348, 129–132, 1992. [Google Scholar]
- McComas, D.J., S.J. Bame, P. Barker, W.C. Feldman, J.L. Phillips, P. Riley, and J.W. Griffee, Solar Wind Electron Proton Alpha Monitor (SWEPAM) for the advanced composition explorer, Space Sci. Rev., 86, 563–612, 1998. [NASA ADS] [CrossRef] [Google Scholar]
- Mewaldt, R.A., C.M.S. Cohen, W.R. Cook, A.C. Cummings, A.J. Davis, et al., The Low-Energy Telescope (LET) and SEP central electronics for the STEREO mission, Space Sci. Rev., 136, 285–362, 2008. [NASA ADS] [CrossRef] [Google Scholar]
- Müller-Mellin, R., H. Kunow, V. Fleißner, E. Pehlke, E. Rode, et al., COSTEP – Comprehensive Suprathermal and Energetic Particle Analyser, Sol. Phys., 162, 483–504, 1995. [Google Scholar]
- Müller-Mellin, R., S. Böttcher, J. Falenski, E. Rode, L. Duvet, T. Sanderson, B. Butler, B. Johlander, and H. Smit, The solar electron and proton telescope for the STEREO mission, Space Sci. Rev., 136, 363–389, 2008. [NASA ADS] [CrossRef] [Google Scholar]
- Ogilvie, K.W., D.J. Chornay, R.J. Fritzenreiter, F. Hunsaker, J. Keller, et al., SWE, A comprehensive plasma instrument for the wind spacecraft, Space Sci. Rev., 71, 55–77, 1995. [NASA ADS] [CrossRef] [Google Scholar]
- Reames, D.V., Particle acceleration at the Sun and in the heliosphere, Space Sci. Rev., 90, 413–491, 1999. [Google Scholar]
- Robbrecht, E., D. Berghmans, and R.A.M. Van der Linden, Automated LASCO CME catalog for Solar cycle 23: Are CMEs scale invariant?, Astrophys. J., 691, 1222–1234, 2009. [NASA ADS] [CrossRef] [Google Scholar]
- Sáiz, A., P. Evenson, D. Ruffolo, and J.W. Bieber, On the estimation of solar energetic particle injection timing from onset times near Earth, Astrophys. J., 626, 1131–1137, 2005. [Google Scholar]
- Simpson, J.A., J.D. Anglin, A. Balogh, M. Bercovitch, J.M. Bouman, et al., The ULYSSES cosmic ray and solar particle investigation, A&AS, 92, 365–399, 1992. [Google Scholar]
- Stone, E.C., C.M.S. Cohen, W.R. Cook, A.C. Cummings, B. Gauld, et al., The solar isotope spectrometer for the advanced composition explorer, Space Sci. Rev., 86, 357–408, 1998. [NASA ADS] [CrossRef] [Google Scholar]
- Torsti, J., E. Valtonen, M. Lumme, P. Peltonen, T. Eronen, et al., Energetic particle experiment ERNE, Sol. Phys., 162, 505–531, 1995. [NASA ADS] [CrossRef] [Google Scholar]
- Warmuth, A., and G. Mann, Kinematical evidence for physically different classes of large-scale coronal EUV waves, A&A, 532, 151, 2011. [Google Scholar]
- Vainio, R., L. Desorgher, D. Heynderickx, M. Storini, E. Flückiger, et al., Dynamics of the Earth’s particle radiation environment, Space Sci. Rev., 147, 187–231, 2009. [Google Scholar]
- Vedrenne, G., J.-P. Roques, V. Schönfelder, P. Mandrou, G.G. Lichti, et al., SPI: The spectrometer aboard INTEGRAL, A&A, 411, L63–L70, 2003. [NASA ADS] [CrossRef] [EDP Sciences] [Google Scholar]
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