Litcius/Paper detail

The Width, Density, and Outflow of Solar Coronal Streamers

Huw Morgan, Anthony C. Cook

2020The Astrophysical Journal32 citationsDOIOpen Access PDF

Abstract

Abstract Characterizing the large-scale structure and plasma properties of the inner corona is crucial to understanding the source and subsequent expansion of the solar wind and related space weather effects. Here, we apply a new coronal rotational tomography method, along with a method to narrow streamers and refine the density estimate, to COR2A/Solar Terrestrial Relations Observatory observations from a period near solar minimum and maximum, gaining density maps for heights between 4 and 8 R ⊙ . The coronal structure is highly radial at these heights, and the streamers are very narrow: in some regions, only a few degrees in width. The mean densities of streamers is almost identical between solar minimum and maximum. However, streamers at solar maximum contain around 50% more total mass due to their larger area. By assuming a constant mass flux, and constraints on proton flux measured by Parker Solar Probe (PSP), we estimate an outflow speed within solar minimum streamers of 50–120 kms −1 at 4 R ⊙ , increasing to 90–250 kms −1 at 8 R ⊙ . Accelerations of around 6 ms −2 are found for streamers at a height of 4 R ⊙ , decreasing with height. The solar maximum slow wind shows a higher acceleration to extended distances compared with solar minimum. To satisfy the solar wind speeds measured by PSP, there must be a mean residual acceleration of around 1–2 ms −2 between 8 and 40 R ⊙ . Several aspects of this study strongly suggest that the coronal streamer belt density is highly variable on small scales, and that the tomography can only reveal a local spatial and temporal average.

Topics & Concepts

PhysicsHelmet streamerSolar windCoronal mass ejectionOutflowCoronal loopCoronal holeSolar minimumCorona (planetary geology)Solar radiusAstrophysicsNanoflaresCoronal cloudAstronomySolar maximumAccelerationCoronal planeSolar observatoryFlux (metallurgy)Solar physicsPlasmaObservatorySolar flareSpace weatherHeliosphereComputational physicsSolar cycleAtmospheric sciencesSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsStellar, planetary, and galactic studies
The Width, Density, and Outflow of Solar Coronal Streamers | Litcius