Energy spectrum of two-dimensional isotropic rapidly rotating turbulence

Abstract

We study a two-dimensional isotropic rotating system and obtain both theoretically and numerically a K-2 energy spectrum under the rapidly rotating condition (Ro 1), which was initially obtained by Zeman (1994) and Zhou (1995). In rotating turbulence, the K-2 energy spectrum was proposed under the assumption of isotropy, however, the direction selectivity of rotation breaks isotropy, making this K-2 spectrum not easily observable. To fill the gap between theoretical assumptions and realizability, we study the turbulence of inertial waves in an artificial two-dimensional isotropic rotating turbulence system. In the limit of a small Rossby number, we asymptotically derive a nonlinear amplitude equation for inertial waves, which gives the K-2 spectrum using a strong turbulence argument. This scaling is justified by numerical simulations of both the amplitude equation and the original system.