Strong solutions to the 3D primitive equations with only horizontal dissipation: near H1 initial data

Abstract

In this paper, we consider the initial-boundary value problem of the three-dimensional primitive equations for oceanic and atmospheric dynamics with only horizontal viscosity and horizontal diffusivity. We establish the local, in time, well-posedness of strong solutions, for any initial data (v0, T0)∈ H1, by using the local, in space, type energy estimate. We also establish the global well-posedness of strong solutions for this system, with any initial data (v0, T0)∈ H1 L∞, such that ∂zv0∈ Lm, for some m∈(2,∞), by using the logarithmic type anisotropic Sobolev inequality and a logarithmic type Gronwall inequality. This paper improves the previous results obtained in [Cao, C.; Li, J.; Titi, E.S.: Global well-posedness of the 3D primitive equations with only horizontal viscosity and diffusivity, Comm. Pure Appl.Math., Vol. 69 (2016), 1492-1531.], where the initial data (v0, T0) was assumed to have H2 regularity.