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Space Science MO&DA Programs - July 1999 - Page 1 SS Possible Connection Between Solar Supergranulation and Temporal Variations of Solar Energetic Particles.

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Presentation on theme: "Space Science MO&DA Programs - July 1999 - Page 1 SS Possible Connection Between Solar Supergranulation and Temporal Variations of Solar Energetic Particles."— Presentation transcript:

1 Space Science MO&DA Programs - July 1999 - Page 1 SS Possible Connection Between Solar Supergranulation and Temporal Variations of Solar Energetic Particles Joe Mazur/Aerospace Corporation and Joe Giacalone/University of Arizona ACE/ULEIS observations of Carbon-Iron ions in SEP events show short-lived flux “drop-outs” The faster particles arrive earlier than slower particles. The overall profile is sporadically interrupted. These drop-outs can be simulated in a numerical model of particle transport developed by the Arizona group.

2 Space Science MO&DA Programs - July 1999 - Page 2 SS In this model, particle events originate near the sun are constrained to follow the interplanetary magnetic field lines, which are anchored in the supergranulation network. The ends of the field lines execute a random walk resulting in large-scale field fluctuations that are carried into the interplanetary space by the solar wind. Possible Connection Between Solar Supergranulation and Temporal Variations of Solar Energetic Particles

3 Space Science MO&DA Programs - July 1999 - Page 3 SS Possible Connection between Solar Supergranulation and Temporal Variations of SEPs ACE measurements of the intensity patterns of solar energetic particles (SEPs) may be indirectly related to the supergranulation of the Sun’s photosphere. These particle events originate near the sun and are constrained to follow the interplanetary magnetic field lines as they travel from the Sun to ACE, so they serve as unique tracers of the interplanetary magnetic field’s structure. The ULEIS sensor on ACE often observes SEP events with short-lived (<1 hour) flux “drop-outs” (e.g. #5 and #8 above right). These drop-outs also occur in a numerical model of the particle transport that uses an interplanetary magnetic field whose field lines are anchored in the supergranulation network. The ends of the field lines execute a random walk in the photosphere, resulting in large-scale field fluctuations that are carried into interplanetary space by the solar wind. The long-wavelength turbulence affects the particle propagation in the model, producing similar features to those observed. ACE observations, backed by theoretical modeling, may therefore allow us to use these particle events to probe the large- scale structure of the heliospheric magnetic field. Provided by J. Giacalone of U. of Arizona and J. Mazur of Aerospace Corp. Photospheric Supergranulation... produces large-scale Fluctuations in IMF causing SEP flux variations …that may correspond to ACE observations

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