Algebraic bounds on the Rayleigh–Bénard attractor
Abstract: The Rayleigh–Bénard system with stress-free boundary conditions is shown to have a global attractor in each affine space where velocity has fixed spatial average. The physical problem is shown to be equivalent to one with periodic boundary conditions and certain symmetries. This enables a Gronwall estimate on enstrophy. That estimate is then used to bound the L 2 norm of the temperature gradient on the global attractor, which, in turn, is used to find a bounding region for the attractor in the enstrophy–palinstrophy plane. All final bounds are algebraic in the viscosity and thermal diffusivity, a significant improvement over previously established estimates. The sharpness of the bounds are tested with numerical simulations.
Funder: John Simon Guggenheim Memorial Foundation; doi: https://doi.org/10.13039/100005851
Funder: Einstein Visiting Fellow Program
National Science Foundation (DMS-1418911 DMS-1818754)