A Model for Coronal Inflows and In/Out Pairs
- University of California--Berkeley, Space Sciences Laboratory, Berkeley, United States of America (blynch@ssl.berkeley.edu)
We present a three-dimensional (3D) numerical magnetohydrodynamics (MHD) model of the white-light coronagraph observational phenomena known as coronal inflows and in/out pairs. Coronal inflows in the LASCO/C2 field of view (approximately 2–6 Rs) were thought to arise from the dynamic and intermittent release of solar wind plasma associated with the helmet streamer belt as the counterpart to outward-propagating streamer blobs, formed by magnetic reconnection. The MHD simulation results show relatively narrow lanes of density depletion form high in the corona and propagate inward with sinuous motion that has been characterized as "tadpole-like" in coronagraph imagery. The height–time evolution and velocity profiles of the simulation inflows and in/out pairs are compared to their corresponding observations and a detailed analysis of the underlying magnetic field structure associated with the synthetic white-light and mass density evolution is presented. Understanding the physical origin of this structured component of the slow solar wind’s intrinsic variability could make a significant contribution to solar wind modeling and the interpretation of remote and in situ observations from Parker Solar Probe and Solar Orbiter.
How to cite: Lynch, B.: A Model for Coronal Inflows and In/Out Pairs, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-10416, https://doi.org/10.5194/egusphere-egu21-10416, 2021.