Expansion of solar magnetic flux tubes large and small

Details Expansion of solar magnetic flux tubes large and small Expansion of solar magnetic flux tubes large and small

Jul 1999

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999a%26a...347l..27s&link_type=abstract

Astronomy and Astrophysics, v.347, p.L27-L30 (1999)

Astronomy and Astrophysics

Astrophysics

27

Magnetic Fields, Sun: Sunspots, Sun: Faculae, Plages, Sun: Infrared

Scientific paper

In the solar photosphere the magnetic field of magnetic elements and sunspots is known to expand with height. In the case of sunspots this expansion is known to be very rapid, with the field forming an almost horizontal canopy. In this contribution we present new results on the superpenumbral canopy of sunspots based on fits to Stokes I and V profiles of infrared spectral lines. The new models take pressure balance across the boundary of the canopy field into account, which leads to significantly lower canopy base heights than previously determined from similar data. Due to the lower canopy base height, the density above the canopy base is larger, so that estimates of the mass transported by the Evershed effect in the canopy need to be revised upwards: approximately 15-50% of the mass flowing through the penumbra travels beyond the sunspot boundary above the canopy base. A comparison with small flux tubes leads to the surprising result that although the two types of features have magnetic fluxes that differ by 5-6 orders of magnitude, their relative rate of expansion with height is very similar, suggesting that at least in this respect sunspots can be described by the thin-tube approximation. The remaining small differences between the relative expansion of the two types of flux tubes is qualitatively compatible with the presence of magnetic flux that returns into the solar interior at the spot boundary, as has been proposed by Westendorp Plaza et al. (1997).

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