Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 729, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/729/1/L8
Keywords
instabilities; plasmas; solar-terrestrial relations; Sun: corona; Sun: coronal mass ejections (CMEs); Sun: oscillations
Categories
Funding
- UK Science and Technology Facilities Council (STFC)
- EPSRC [EP/H02395X/1, EP/D062837/1] Funding Source: UKRI
- STFC [ST/I000720/1, ST/F00205X/1] Funding Source: UKRI
- Engineering and Physical Sciences Research Council [EP/H02395X/1, EP/D062837/1] Funding Source: researchfish
- Science and Technology Facilities Council [ST/I000720/1, ST/F00205X/1] Funding Source: researchfish
- Directorate For Geosciences
- Div Atmospheric & Geospace Sciences [0847120] Funding Source: National Science Foundation
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Flows and instabilities play a major role in the dynamics of magnetized plasmas including the solar corona, magnetospheric and heliospheric boundaries, cometary tails, and astrophysical jets. The nonlinear effects, multi-scale and microphysical interactions inherent to the flow-driven instabilities, are believed to play a role, e. g., in plasma entry across a discontinuity, generation of turbulence, and enhanced drag. However, in order to clarify the efficiency of macroscopic instabilities in these processes, we lack proper knowledge of their overall morphological features. Here we show the first observations of the temporally and spatially resolved evolution of the magnetic Kelvin-Helmholtz instability in the solar corona. Unprecedented high-resolution imaging observations of vortices developing at the surface of a fast coronal mass ejecta are taken by the new Solar Dynamics Observatory, validating theories of the nonlinear dynamics involved. The new findings are a cornerstone for developing a unifying theory on flow-driven instabilities in rarefied magnetized plasmas, which is important for understanding the fundamental processes at work in key regions of the Sun-Earth system.
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