Abstract
The interaction of magnetic -elds and convection is investigated in the context of the coronal heating problem. We study the motions of photospheric magnetic elements using a time series of high-resolution G-band and continuum -ltergrams obtained at the Swedish Vacuum Solar Telescope at La Palma. The G-band images show bright points arranged in linear structures ( -ligree II) located in the lanes between neighboring granule cells. We measure the motions of these bright points using an object tracking tech- nique, and we determine the autocorrelation function describing the temporal variation of the bright point velocity. The correlation time of the velocity is about 100 s. To understand the processes that determine the spatial distribution of the bright points, we perform simulations of horizontal motions of magnetic Nux elements in response to solar granulation Nows. Models of the granulation Now are derived from the observed granulation intensity images using a simple two-dimensional model that includes both inertia and horizontal temperature gradients; the magnetic Nux elements are assumed to be passively advected by this granulation Now. The results suggest that this passive advection model is in reasonable agreement with the observations, indicating that on a timescale of 1 hr the Nux tubes are not strongly a†ected by their anchoring at large depth. Finally, we use potential--eld modeling to extrapo- late the magnetic and velocity -elds to larger height. We -nd that the velocity in the chromosphere can be locally enhanced at the separatrix surfaces between neighboring Nux tubes. The predicted velocities are several km s~1, signi-cantly larger than those of the photospheric Nux tubes. The implications of these results for coronal heating are discussed. Subject headings: convection E Sun: corona E Sun: granulation E Sun: magnetic -elds
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