http://arxiv.org/abs/2204.09417
Alfv\’en-wave turbulence has emerged as an important heating mechanism to accelerate the solar wind. The generation of this turbulent heating is dependent on the presence and subsequent interaction of counter-propagating alfv\’en waves. This requires us to understand the propagation and evolution of alfv\’en waves in the solar wind in order to develop an understanding of the relationship between turbulent heating and solar-wind parameters. We aim to study the response of the solar wind upon injecting monochromatic single-frequency alfv\’en waves at the base of the corona for various magnetic flux-tube geometries. We used an ideal magnetohydrodynamic (MHD) model using an adiabatic equation of state. An Alfv\’en pump wave was injected into the quiet solar wind by perturbing the transverse magnetic field and velocity components. Alfv\’en waves were found to be reflected due to the development of the parametric decay instability (PDI). Further investigation revealed that the PDI was suppressed both by efficient reflections at low frequencies as well as magnetic flux-tube geometries.
C. Sishtla, J. Pomoell, E. Kilpua, et. al.
Thu, 21 Apr 22
30/73
Comments: 10 pages, 7 figures. Accepted for publication in Astronomy & Astrophysics
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