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- Title
Resonant Instability of Kink Oscillations in Magnetic Flux Tubes with Siphon Flow.
- Authors
Ruderman, Michael S.; Petrukhin, Nikolai S.
- Abstract
We study kink oscillations of a straight magnetic tube in the presence of siphon flows. The tube consists of a core and a transitional or boundary layer. The flow velocity is parallel to the tube axis, has constant magnitude, and confined in the tube core. The plasma density is constant in the tube core and it monotonically decreases in the transitional layer to its value in the surrounding plasma. We use the expression for the decrement/increment previously obtained by Ruderman and Petrukhin (Astron. Astrophys.631, A31, 2019) to study the damping and resonant instability of kink oscillations. We show that, depending on the magnitude of siphon-velocity, resonant absorption can cause either the damping of kink oscillations or their enhancement. There are two threshold velocities: When the flow velocity is below the first threshold velocity, kink oscillations damp. When the flow velocity is above the second threshold velocity, the kink oscillation amplitudes grow. Finally, when the flow velocity is between the two threshold velocities, the oscillation amplitudes do not change. We apply the theoretical result to kink oscillations of prominence threads. We show that, for particular values of thread parameters, resonant instability can excite these kink oscillations.
- Subjects
OSCILLATIONS; SIPHONS; FLOW velocity; TUBES; BOUNDARY layer (Aerodynamics); MAGNETIC flux; FLOW instability; MAGNETOHYDRODYNAMIC instabilities
- Publication
Solar Physics, 2021, Vol 296, Issue 6, p1
- ISSN
0038-0938
- Publication type
Article
- DOI
10.1007/s11207-021-01842-0