arXiv:2510.15077v1 Announce Type: new
Abstract: Turbulent behavior of the two-parameter family of generalized surface quasigeostrophic equations is examined both rigorously and numerically. We adapt a cascade mechanism argument to derive an energy spectrum that scales as $kappa^{2beta/3-3}$ where $beta$ controls the regularity of the velocity ($beta=1$ in the special case of the SQG). Direct numerical simulations indicate that this fits better than $kappa^{beta/3-3}$ which was derived in earlier work. Guided by earlier work on the 2D Navier-Stokes equations, we prove a certain condition implies a direct cascade of enstrophy, as well as an upper bound on the enstrophy dissipation rate, and sharp bounds on a dissipation wavenumber. The dependence of these rigorous results on the two parameters is demonstrated numerically.