Abstract
The shape of a magnetic flux tube is investigated when photospheric motion causes small twist at the magnetic footpoints. Using a Fourier-Bessel series expansion, the previous results of Zweibel and Boozer (1985) and Steinolfson and Tajima (1987), when the twist is small, are substantiated. A twisting motion that is restricted to a finite region is investigated. Inside the twisted region, the tube contracts, but in the outer region the field remains straight, except for a slight expansion at the outside of the loop near the footpoints. The amount of twist depends on the radial position and can in fact be larger in the contracted region with the twist decreasing as the tube expands. An axial boundary-layer region is present, as noted by the above authors, through which the field adjusts to the line-tied magnetic footpoint positions. An analysis of the boundary layer shows that the thickness remains constant as the loop-length is increased with the result that the main part of the loop has constant cross-sectional area and can be described by cylindrically-symmetric fields. This new 1-D model predicts the main behaviour of the loop without the need to solve the more complicated 2-D problem directly. It is speculated that the boundary layers will remain even when the twist becomes large and a simple example is presented. A detailed parametric study of different twist profiles shows how the central part of the loop responds.
Using the result that the majority of the loop can be described by a constant cross-sectional area, a model for a toroidal loop is presented that models coronal loops in a more realistic manner. The main result from this section is that the coronal loops can only remain in equilibrium if they are confined by an external magnetic field (possibly potential in nature) and not by a gas pressure unless additional physical effects are included.
Similar content being viewed by others
References
Abramowitz, M. and Stegun, I. A.: 1972,Handbook of Mathematical Functions, Dover, New York.
Browning, P. K. and Hood, A. W.: 1989, in preparation.
Browning, P. K. and Priest, E. R.: 1983,Astrophys. J. 266, 848.
Greene, J. M., Johnson, J. L., and Weimer, K. E.: 1971,Phys. Fluids 14, 671.
Hood, A. W. and Priest, E. R.: 1979,Solar Phys. 64, 303.
Parker, E. N.: 1979,Cosmical Magnetic Fields, Oxford Univ. Press, Oxford.
Steinolfson, R. and Tajima, T.: 1987,Astrophys. J. 322, 503.
Zweibel, E. G. and Boozer, A. H.: 1985,Astrophys. J. 295, 642.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lothian, R.M., Hood, A.W. Twisted magnetic flux tubes: Effect of small twist. Sol Phys 122, 227–244 (1989). https://doi.org/10.1007/BF00912994
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF00912994