| Literature DB >> 35029449 |
J C Kasper1, K G Klein2, E Lichko2, Jia Huang3, C H K Chen4, S T Badman5, J Bonnell5, P L Whittlesey5, R Livi5, D Larson5, M Pulupa5, A Rahmati5, D Stansby6, K E Korreck7, M Stevens7, A W Case7, S D Bale8, M Maksimovic9, M Moncuquet9, K Goetz10, J S Halekas11, D Malaspina12, Nour E Raouafi13, A Szabo14, R MacDowall14, Marco Velli15, Thierry Dudok de Wit16, G P Zank17.
Abstract
The high temperatures and strong magnetic fields of the solar corona form streams of solar wind that expand through the Solar System into interstellar space. At 09:33 UT on 28 April 2021 Parker Solar Probe entered the magnetized atmosphere of the Sun 13 million km above the photosphere, crossing below the Alfvén critical surface for five hours into plasma in casual contact with the Sun with an Alfvén Mach number of 0.79 and magnetic pressure dominating both ion and electron pressure. The spectrum of turbulence below the Alfvén critical surface is reported. Magnetic mapping suggests the region was a steady flow emerging on rapidly expanding coronal magnetic field lines lying above a pseudostreamer. The sub-Alfvénic nature of the flow may be due to suppressed magnetic reconnection at the base of the pseudostreamer, as evidenced by unusually low densities in this region and the magnetic mapping.Entities:
Year: 2021 PMID: 35029449 DOI: 10.1103/PhysRevLett.127.255101
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161