Physics
Scientific paper
May 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004soph..221..135c&link_type=abstract
Solar Physics, v. 221, Issue 1, p. 135-149 (2004).
Physics
56
Scientific paper
It is well known that the interaction of an interplanetary coronal mass ejection (ICME) with the solar wind leads to an equalisation of the ICME and solar wind velocities at 1 AU. This can be understood in terms of an aerodynamic drag force per unit mass of the form F D/M=-(ρe AC D/M)(V i-V e)∣V i-V e∣, where A and M are the ICME cross-section and sum of the mass and virtual mass, V i and V e the speed of the ICME and solar wind, ρe the solar wind density, C D a dimensionless drag coefficient, and the inverse deceleration length γ=ρe A/M. The optimal radial parameterisation of γ and C D beyond approximately 15 solar radii is calculated. Magnetohydrodynamic simulations show that for dense ICMEs, C D varies slowly between the Sun and 1 AU, and is of order unity. When the ICME and solar wind densities are similar, C D is larger (between 3 and 10), but remains approximately constant with radial distance. For tenuous ICMEs, the ICME and solar wind velocities equalise rapidly due to the very effective drag force. For ICMEs denser that the ambient solar wind, both approaches show that γ is approximately independent of radius, while for tenuous ICMEs, γ falls off linearly with distance. When the ICME density is similar to or less than that in the solar wind, inclusion of virtual mass effects is essential.
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