Litcius/Paper detail

Excitation of Quasiperiodic Fast-propagating Waves in the Early Stage of the Solar Eruption

Jialiang Hu, Jing Ye, Yuhao Chen, Zhixing Mei, Zehao Tang, Jun Lin

2024The Astrophysical Journal10 citationsDOIOpen Access PDF

Abstract

Abstract We propose a mechanism for the excitation of large-scale quasiperiodic fast-propagating magnetoacoustic (QFP) waves observed on both sides of the coronal mass ejection. Through a series of numerical experiments, we successfully simulated the quasi-static evolution of the equilibrium locations of the magnetic flux rope in response to the change of the background magnetic field, as well as the consequent loss of the equilibrium that eventually gives rise to the eruption. During the eruption, we identified QFP waves propagating radially outward of the flux rope, and tracing their origin reveals that they result from the disturbance within the flux rope. Acting as an imperfect waveguide, the flux rope allows the internal disturbance to escape to the outside successively via its surface, invoking the observed QFP waves. Furthermore, we synthesized the images of QFP waves on the basis of the data given by our simulations and found consistency with observations. This indicates that the leakage of the disturbance outside the flux rope could be a reasonable mechanism for QFP waves.

Topics & Concepts

PhysicsQuasiperiodic functionExcitationSolar flareAstrophysicsSolar physicsSolar atmosphereAstronomyComputational physicsMagnetic fieldCondensed matter physicsQuantum mechanicsSolar and Space Plasma DynamicsGeomagnetism and Paleomagnetism StudiesIonosphere and magnetosphere dynamics
Excitation of Quasiperiodic Fast-propagating Waves in the Early Stage of the Solar Eruption | Litcius