Department of Applied Mathematics, University of Colorado, Boulder, Colorado 80309, USA.
Department of Physics, University of California, Berkeley, California 94720, USA.
Phys Rev Lett. 2014 Apr 11;112(14):144501. doi: 10.1103/PhysRevLett.112.144501. Epub 2014 Apr 9.
Rotating Rayleigh-Bénard convection exhibits, in the limit of rapid rotation, a turbulent state known as geostrophic turbulence. This state is present for sufficiently large Rayleigh numbers representing the thermal forcing of the system, and is characterized by a leading order balance between the Coriolis force and pressure gradient. This turbulent state is itself unstable to the generation of depth-independent or barotropic vortex structures of ever larger scale through a process known as spectral condensation. This process involves an inverse cascade mechanism with a positive feedback loop whereby large-scale barotropic vortices organize small scale convective eddies. In turn, these eddies provide a dynamically evolving energy source for the large-scale barotropic component. Kinetic energy spectra for the barotropic dynamics are consistent with a k-3 downscale enstrophy cascade and an upscale cascade that steepens to k-3 as the box-scale condensate forms. At the same time the flow maintains a baroclinic convective component with an inertial range consistent with a k-5/3 spectrum. The condensation process resembles a similar process in two dimensions but is fully three-dimensional.
旋转瑞利-贝纳特对流在快速旋转的极限下表现出一种称为地转湍流的湍流状态。这种状态存在于足够大的瑞利数下,代表了系统的热强迫,其特征是科里奥利力和压力梯度之间的主导平衡。通过一种称为谱凝结的过程,这种湍流状态本身对地转无深度或正压涡结构的产生不稳定,这些结构的尺度越来越大。这个过程涉及一个正反馈回路的逆级联机制,其中大尺度的正压涡旋组织小尺度的对流涡旋。反过来,这些涡旋为大尺度正压分量提供了一个动态演化的能量源。正压动力学的动能谱与 k-3 向下的涡度级联和向上的级联一致,当盒尺度凝结物形成时,级联变得陡峭至 k-3。同时,流动保持具有惯性范围的斜压对流分量,与 k-5/3 谱一致。凝结过程类似于二维中的类似过程,但完全是三维的。
