Exact solutions of time-dependent oscillations in multipolar spherical vortices

Abstract: Exact solutions of the time-dependent three-dimensional nonlinear vorticity equation for Euler flows with spherical geometry are provided. The velocity solution is the sum of a multipolar oscillatory function and a rigid cylindrical motion with swirl. The multipolar oscillation is a velocity mode whose radial and angular dependencies are given by the spherical Bessel functions and vector spherical harmonics, respectively. The local frequency of the velocity oscillations equals the angular speed of the rigid fl… Show more

“…Despise their physical relevance there is a lack of exact mathematical solutions to the three-dimensional time-dependent nonlinear fluid equations that may account for the coexistence or superposition of normal oscillating modes in background rigid flows. In inviscid and incompressible fluids a particular class of time-dependent spherical velocity oscillations, in the presence of background swirling rigid flow, was recently found as an exact solution to the nonlinear vorticity equation [1]. These velocity oscillations u p,q (x, t) ≡ U p,q (x, t) + ūq (x) (1) consist in the sum of an oscillating, both in time and space, flow U p,q and a rigid cylindrical swirling flow…”

On the Superposition of Multipolar Spherical and Cylindrical Oscillations in Swirling Rigid Flow

“…Despise their physical relevance there is a lack of exact mathematical solutions to the three-dimensional time-dependent nonlinear fluid equations that may account for the coexistence or superposition of normal oscillating modes in background rigid flows. In inviscid and incompressible fluids a particular class of time-dependent spherical velocity oscillations, in the presence of background swirling rigid flow, was recently found as an exact solution to the nonlinear vorticity equation [1]. These velocity oscillations u p,q (x, t) ≡ U p,q (x, t) + ūq (x) (1) consist in the sum of an oscillating, both in time and space, flow U p,q and a rigid cylindrical swirling flow…”

On the Superposition of Multipolar Spherical and Cylindrical Oscillations in Swirling Rigid Flow

On the superposition of multipolar spherical and cylindrical oscillations in swirling rigid flow

Euler fluid mechanics solutions to Dirac quantum mechanics equation using multipolar oscillations in spherical geometry