Sensitivity of solar wind mass flux to coronal temperature
David Stansby, Laura Berčič, Lorenzo Matteini, C. J. Owen, Ryan J. French, Deborah Baker, Samuel T. Badman
Abstract
Solar wind models predict that the mass flux carried away from the Sun in the solar wind should be extremely sensitive to the temperature in the corona, where the solar wind is accelerated. We perform a direct test of this prediction in coronal holes and active regions using a combination of in situ and remote sensing observations. For coronal holes, a 50% increase in temperature from 0.8 to 1.2 MK is associated with a tripling of the coronal mass flux. This trend is maintained within active regions at temperatures over 2 MK, with a four-fold increase in temperature corresponding to a 200-fold increase in coronal mass flux.
Topics & Concepts
Coronal mass ejectionCorona (planetary geology)Solar windFlux (metallurgy)Coronal holeCoronal loopCoronal planeNanoflaresMass fluxPhysicsSensitivity (control systems)AstrophysicsAtmospheric sciencesEnvironmental sciencePlasmaMaterials scienceMechanicsAstrobiologyQuantum mechanicsElectronic engineeringMedicineRadiologyVenusEngineeringMetallurgySolar and Space Plasma DynamicsStellar, planetary, and galactic studiesIonosphere and magnetosphere dynamics