An Analytical Solution for “EIT Waves” M. J. Wills-Davey, C. E. DeForest, Southwest Research...
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Transcript of An Analytical Solution for “EIT Waves” M. J. Wills-Davey, C. E. DeForest, Southwest Research...
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An Analytical Solution for “EIT Waves”
M. J. Wills-Davey, C. E. DeForest,Southwest Research Institute, Boulder, Colorado
and J. O. StenfloSouthwest Research Institute (on leave from Institute of
Astronomy, University of Zurich)
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Observed Properties of “EIT Waves”
• Large, single-pulse fronts• Intensity-enhancements (compressional MHD waves)
• Travel global distances through QS• Tend to travel much more slowly than the Alfvén or fast-
mode speeds (~300 km/s vs. ~600-1000 km/s)
• Often instigate loop oscillations
Image provided by B. J. ThompsonEIT Event: 12 May 1997
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TRACE Event: 13 June 1998
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Certain properties of EIT waves have been difficult to model.
If you use plane waves, it’s hard to:
• make ubiquitous waves move slowly.
• create a long-lived, coherent single pulse.– Dispersion should show periodicity.
• instigate loop oscillations with a plane wave.
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A Soliton Solution
• Non-linear– Matches observations
• Assume a simple MHD environment– No boundaries
– v B
Density:
ρ = ρ0 + ρ1sech2[x-cwt/Lw]
Solutions with constant cw, no dispersion are possible.
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For the “EIT Wave Solution:”
cw2 =
[(1 – 3 )cs2 + (1 – 2 )vA
2]2
(cs2 + vA
2)[3( )2– 3 + 1) ρ1
ρ0 ρ1
ρ0 ρ1
ρ0
ρ1
ρ0 ρ1
ρ0
• cw2 depends on the initial conditions.
• For a range of ρ1/ρ0 01, cw2 < vA
2
Waves travel at observed velocities and with consistent density perturbations.
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Instigating Loop Oscillations
• Unlike plane waves, solitons do not return things to IC– Shifts about pulse
width
• Consistent with observations
Solitons must generate loop displacement.
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Conclusion
• Relation to CMEs– Large events ideal non-linear wave generator
• Better geometry, boundary conditions– Gravity, surface curvature, more-D propagation
• Now may be useful for coronal seismology
Solitons provide a simple, non-linear solution consistent with observations.
Where to go now…