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The structure of coronal loops

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Abstract

With the advent of space telescopes, coronal magnetic loops, both within and outside active regions, are being observed with renewed interest. This paper is an attempt to outline some general physical considerations pertinent to such loops, as a prelude to more sophisticated modelling. For example, a loop that is stretched (or possibly twisted) too much may be subject to a thermal instability that cools its core to a new equilibrium below 105 K. Also a simple consequence of hydrostatic balance along an equilibrium loop is that, under some circumstances, the density inside a cool loop can be comparable with that outside, despite the much smaller scale height. Finally, when the equilibrium loop density is less than the ambient density, several small scale magnetohydrodynamic instabilities are sometimes efficient enough to generate a circulation that tends to equalize the densities.

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Authors and Affiliations

  1. Department of Applied Mathematics, The University, St. Andrews, Scotland

    E. R. Priest

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  1. E. R. Priest
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Priest, E.R. The structure of coronal loops. Sol Phys 58, 57–87 (1978). https://doi.org/10.1007/BF00152555

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