Power spectra of median- and small-scale solar convection

Abstract

[[abstract]]The properties of convective motion on the sun for the scales smaller than supergranules are studied by using the high-resolution Doppler images from the Big Bear Solar Observatory and the Huairou Solar Observatory. By removing the p-mode oscillatory power, spatial power spectra of convection are obtained. The spatial power spectra of convection from both sets of data show an energy excess in the range of about k = 0.6-2.8 rad/Mm, corresponding to 2200-10,000 km. This might correspond to the mesogranulation proposed by other authors. The rms velocity (line-of-sight component) of the mesogranulation is 0.079 +/- 0.001 km/s for the scales 2500-9000 km, and 0.056 +/- 0.001 km/s for the scales 5000-10,000 km. Temporal power spectra of convection for various scales are obtained, from which the lifetime of convective motion can be determined. Both sets of data show that the lifetime of convective motion increases with the scale. But the lifetimes of the mesogranulation from two sets of data are different: about 30 minutes from Big Bear and 2 hr from Huairou.[[fileno]]2010104010005[[department]]物理