Anisotropic turbulent temperature probability densities in high-Ra thermal convection

We present systematic measurements of conditional diffusion $r(x) = \langle \ddot{X} \vert X=x\rangle$ and dissipation $q(x) = \langle (\dot{X})^2 \vert X=x \rangle$ of the normalized temperature fluctuations $X=(T-\bar{T})/\sigma$ in turbulent Rayleigh-B\'enard convection (RBC) at several radial positions where the flow is anisotropic. The data cover the Rayleigh-number range $10^{13} \leq Ra \leq 10^{15}$ for a Prandtl number $Pr \simeq 0.80$. The sample was a right-circular cylinder with aspect ratio $\Gamma \equiv D/L = 0.50$ ($D= 1.12$ m is the diameter and $L = 2.24$ m is the height). We compared experimental forms of $q(x)$ and $r(x)$ with previous investigations based on the ``fluctuation-dissipation'' relation for isotropic flow.\footnote{Emily S. C. Ching, Phys. Rev. Lett. {\bf 70}, 283 (1993)} We derived a general form for the temperature probability-density function (PDF). Similar analyses have also been extended to the study of the temperature time derivative, and to the temperature increment in the time domain. Good agreements are found between experimental temperature probability densities and predicted PDF forms.