Additional Evidence Supporting a Model of Shallow, High-Speed Supergranulation

Abstract

Recently, Duvall and Hanasoge ( Solar Phys. 287, 71-83, 2013) found that large distance [] separation travel-time differences from a center to an annulus [δ toi] implied a model of the average supergranular cell that has a peak upflow of 240ms-1 at a depth of 2.3Mm and a corresponding peak outward horizontal flow of 700ms-1 at a depth of 1.6Mm. In the present work, this effect is further studied by measuring and modeling center-to-quadrant travel-time differences [δ tqu], which roughly agree with this model. Simulations are analyzed that show that such a model flow would lead to the expected travel-time differences. As a check for possible systematic errors, the center-to-annulus travel-time differences [δ toi] are found not to vary with heliocentric angle. A consistency check finds an increase of δ toi with the temporal frequency [] by a factor of two, which is not predicted by the ray theory.