Logarithmic temperature profiles in turbulent Rayleigh-B\'enard convection

Abstract

We report results for the temperature profiles of turbulent Rayleigh-B\'enard convection (RBC) in the interior of a cylindrical sample of aspect ratio D/L = 0.50 (D and L are the diameter and height respectively). Results from experiment over the Rayleigh number range 4× 1012 Ra 1015 for a Prandtl number 0.8 and from direct numerical simulation (DNS) at Ra = 2 × 1012 for = 0.7 are presented. We find that the temperature varies as A*ln(z/L) + B where z is the distance from the bottom or top plate. This is the case in the classical as well as in the ultimate state of RBC. From DNS we find that A in the classical state decreases in the radial direction as the distance from the side wall increases and becomes small near the sample center.