Global regularity of some axisymmetric, single-signed vorticity in any dimension

Abstract

We consider incompressible Euler equations in any dimension d≥3 imposing axisymmetric symmetry without swirl. While the global regularity of smooth flows in this setting has been well-known in d=3 , the same question in higher dimensions d≥4 remains unsolved. Recently, global regularity for the case d=4 with some extra decay assumption on vorticity is obtained by proving global estimate of the radial velocity. Now we prove that the vorticity with single-sign and a similar decay assumption is globally regular for any d≥4 . This is due to pointwise decay estimate of radial velocity in sufficiently large radial distance, which depends on time. The result is of confinement type for support growth, which is going back to Marchioro [Comm. Math. Phys., 164 (1994) 507-524] and Iftimie--Sideris--Gamblin [Comm. Partial Differential Equations, 24 (1999) 1709-1730] for R2 . In particular, we follow the approach of Maffei--Marchioro [Rend. Sem. Mat. Univ. Padova, 105 (2001) 125-137] for d=3 so that we generalize the confinement into any dimension.