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The Solar Minimum Eclipse of 2019 July 2. II. The First Absolute Brightness Measurements and MHD Model Predictions of Fe x, xi, and xiv out to 3.4 R <sub>⊙</sub>

Benjamin Boe, S. R. Habbal, Cooper Downs, Miloslav Druckmüller

2022The Astrophysical Journal26 citationsDOIOpen Access PDF

Abstract

Abstract We present the spatially resolved absolute brightness of the Fe x , Fe xi , and Fe xiv visible coronal emission lines from 1.08 to 3.4 R ⊙ , observed during the 2019 July 2 total solar eclipse (TSE). The morphology of the corona was typical of solar minimum, with a dipole field dominance showcased by large polar coronal holes and a broad equatorial streamer belt. The Fe xi line is found to be the brightest, followed by Fe x and Fe xiv (in disk B ⊙ units). All lines had brightness variations between streamers and coronal holes, where Fe xiv exhibited the largest variation. However, Fe x remained surprisingly uniform with latitude. The Fe line brightnesses are used to infer the relative ionic abundances and line-of-sight-averaged electron temperature ( T e ) throughout the corona, yielding values from 1.25 to 1.4 MK in coronal holes and up to 1.65 MK in the core of streamers. The line brightnesses and inferred T e values are then quantitatively compared to the Predictive Science Inc. magnetohydrodynamic model prediction for this TSE. The MHD model predicted the Fe lines rather well in general, while the forward-modeled line ratios slightly underestimated the observationally inferred T e within 5%–10% averaged over the entire corona. Larger discrepancies in the polar coronal holes may point to insufficient heating and/or other limitations in the approach. These comparisons highlight the importance of TSE observations for constraining models of the corona and solar wind formation.

Topics & Concepts

PhysicsCorona (planetary geology)Coronal holeSolar radiusAstrophysicsBrightnessSolar windPolarSolar eclipseHelmet streamerLine (geometry)Coronal loopCoronal radiative lossesCoronal mass ejectionAstronomyPlasmaGeometryVenusMathematicsAstrobiologyQuantum mechanicsSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAstro and Planetary Science