Abstract
Typical intensity profiles across a sunspot at several heliocentric angles are selected from recent observations of the Wilson Effect. In addition, the profile of the mean intensity at the surface of the spot is inferred from these observed profiles.
With these data, the transfer equation is solved for the two-dimensional source function distribution within the sunspot for several models of the opacity distribution. For an opacity model in which unit optical depth in the umbra occurs at least 700 km below unit optical depth in the mean photosphere, it is possible to reproduce qualitatively all the features of the observed profiles.
Although no assumption is made about the extent of the umbra below the surface, these solutions clearly show that, at a depth of 700 km below unit optical depth in the photosphere, the diameter of the umbral region, which is 10800 km at the surface, has increased to about 12000 km. Thus the shape of the umbral region below the surface is part of an inverted cone of semi-vertical angle approximately 45°. The run of gas pressure and density in the umbra is computed for the model and compared with the corresponding photospheric values.
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References
Wilson, P. R.: 1966, Astrophys. J. 143, 993.
Wilson, P. R.: 1968a, Astrophys. J. 151, 1019.
Wilson, P. R.: 1968b, Astrophys. J. 151, 1029.
Wilson, P. R.: 1968c, Solar Phys. 3, 243.
Wilson, P. R. and Cannon, C. J.: 1968, Solar Phys. 4, 3.
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Of the National Bureau of Standards and University of Colorado.
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Wilson, P.R. The structure of a sunspot. Sol Phys 5, 338–353 (1968). https://doi.org/10.1007/BF00147146
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DOI: https://doi.org/10.1007/BF00147146