Abstract In this paper, we study conditions of realization and stability of kink modes with azimuthal wave numbers m = ± 1 in cylindrical plasma flex with twisted magnetic field… Click to show full abstract
Abstract In this paper, we study conditions of realization and stability of kink modes with azimuthal wave numbers m = ± 1 in cylindrical plasma flex with twisted magnetic field and homogeneous current along its axis. We assume permanent axial magnetic field both inside and outside the flex, surrounded by currentless plasma. Azimuthal magnetic field decreases inversely proportional to the distance from the boundary beyond the flex. We derived dispersion equations for stable and unstable modes in approximation of “thin” plasma flex. The analysis of equations has been provided for the case of discontinuous axial magnetic field on flex’s boundary. Conditions of propagation of wave modes have been defined. It was shown, that unstable modes can be implemented in certain interval of longitudinal wavenumbers. Results can be applied for the interpretation of solar magnetic tubes behavior, using measurements, provided by spacecrafts.
               
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