Abstract
The Naval Research Laboratory (NRL) Solwind coronagraph recorded the outer corona at elongations 2_5 R⊙ to 10 R⊙ during the 6 1/2-year interval from March 1979, before solar maximum, to the beginning of solar minimum in September 1985. During the minimum period, when the solar magnetic field was dipole-like, the observed corona consisted of the equatorial streamer belt that is characteristic of solar minimum, and that is interpreted as an edgewise view of a nearly flat current sheet or coronal disk lying near the plane of the heliographic equator. The observed disk was a radial projection from the magnetic neutral line that was computed for the 2.5 R⊙ source surface surrounding the Sun. At earlier times, shortly after solar maximum, the observed corona often consisted of a single coronal disk similar to that at solar minimum, but strongly tilted to the heliographic equator. Again this disk projected from a tilted magnetic neutral line that was computed for the 2.5 R⊙ source surface. Solar rotation allowed this coronal disk to be viewed in all aspects. In the edgewise view it appeared as a tilted streamer belt. In the broadside view the more flower-like pattern of solar maximum was observed. The latter view was interpreted as a non-uniform distribution of coronal material in the thin coronal disk. There were many intervals during the declining phase of the solar cycle when the computed magnetic neutral line at 2.5 R⊙ remained relatively simple but was not the source of an observable coronal disk. This latter result was probably because of the limitations of plane-of-sky observations, combined with short-term changes in the corona. Altogether, a single coronal disk, either flat or somewhat convoluted, was recognizable during only one third of the year lifetime of the coronagraph.
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References
Akasofu, S.: 1994, Sky Telesc. 88(5), 24.
Behannon, K. W., Burlaga, L. F., and Hundhausen, A. J.: 1983, J. Geophys. Res. 88, 7837.
Brueckner, G. E., Howard, R. A., Koomen, M. J., Korendyke, C. M., Michels, D. M., Moses, D. J., Socker, D. J., Dere, K. P., Lamy, P. L., Llebaria, A., Bout, M. J., Schwenn, R., Simnett, G. M., Bedford, D. K., and Eyles, C. J.: 1996, Solar Phys. 162, 357.
Bruno, R., Burlaga, L. F., and Hundhausen, A. J.: 1982, J. Geophys. Res. 87, 10339.
Chen, J., Krall, J., and Rowland, H.: 1996, EOS, Transactions, AGU, Supplement 77(46), 12.
Gulyaev, R. A.: 1992a, Solar Phys. 142, 213.
Gulyaev, R. A.: 1992b, ESA Publication SP-348, Proc. First SOHO Workshop, Annapolis, MD, U.S.A., 25–28 August 1992.
Gulyaev, R. A. and Vanyarkha, N. Ya.: 1992, Solar Phys. 140, 369.
Hoeksema, J. T. and Scherrer, P. H.: 1986, The Solar Magnetic Field, 1976 through 1985, Report UAG94, 1986, U.S. Dept. Of Commerce, National Geophysical Data Center, Boulder, CO 80303.
Howard, R. A. and Koomen, M. J.: 1974, Solar Phys. 37, 469.
Koomen, M. J., Detwiler, C. R., Brueckner, G. E., Cooper, H. W., and Tousey, R. T.: 1975, Applied Optics 14, 743.
Saito, T., Akasofu, S.-I., Kozuka, Y., Takahashi, T., and Numazawa, S.: 1993, J. Geophys. Res. 98, 5639.
Wang, Y.-M. and Sheeley, N. R., Jr.: 1992, Astrophys. J. 392, 310.
Wilcox, J. M. and Hundhausen, A. J.: 1983, J. Geophys. Res. 88, 8095.
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Koomen, M.J., Howard, R.A. & Michels, D.J. The Shape of the Outer Corona during Cycle 21. Solar Physics 180, 247–263 (1998). https://doi.org/10.1023/A:1005039609265
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DOI: https://doi.org/10.1023/A:1005039609265