English

Exploring Coronal Dynamics: A Next Generation Solar Physics Mission white paper

Solar and Stellar Astrophysics 2016-11-21 v1

Abstract

Determining the mechanisms responsible for the heating of the coronal plasma and maintaining and accelerating the solar wind are long standing goals in solar physics. There is a clear need to constrain the energy, mass and momentum flux through the solar corona and advance our knowledge of the physical process contributing to these fluxes. Furthermore, the accurate forecasting of Space Weather conditions at the near-Earth environment and, more generally, the plasma conditions of the solar wind throughout the heliosphere, require detailed knowledge of these fluxes in the near-Sun corona. Here we present a short case for a space-based imaging-spectrometer coronagraph, which will have the ability to provide synoptic information on the coronal environment and provide strict constraints on the mass, energy, and momentum flux through the corona. The instrument would ideally achieve cadences of 10\sim10~s, spatial resolution of 1" and observe the corona out to 2~R\sunR_{\sun}. Such an instrument will enable significant progress in our understanding of MHD waves throughout complex plasmas, as well as potentially providing routine data products to aid Space Weather forecasting.

Keywords

Cite

@article{arxiv.1611.06149,
  title  = {Exploring Coronal Dynamics: A Next Generation Solar Physics Mission white paper},
  author = {R. J. Morton and E. Scullion and D. S. Bloomfield and J. A. McLaughlin and S. Regnier and S. W. McIntosh and S. Tomczyk and P. Young},
  journal= {arXiv preprint arXiv:1611.06149},
  year   = {2016}
}

Comments

4 pages, 1 figure

R2 v1 2026-06-22T16:57:13.522Z