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Related papers: Vortex Filament Equation for a Regular Polygon

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In this paper, we consider the evolution of the Vortex Filament equation (VFE): \begin{equation*} \mathbf X_t = \mathbf Xs \wedge \mathbf Xss, \end{equation*} taking $M$-sided regular polygons with nonzero torsion as initial data. Using…

Numerical Analysis · Mathematics 2019-09-04 Francisco de la Hoz , Sandeep Kumar , Luis Vega

The aim of this article is twofold. First, we show the evolution of the vortex filament equation (VFE) for a regular planar polygon in the hyperbolic space. Unlike in the Euclidean space, the planar polygon is open and both of its ends grow…

Numerical Analysis · Mathematics 2021-08-10 Francisco de la Hoz , Sandeep Kumar , Luis Vega

In this paper, we consider the evolution of the so-called vortex filament equation (VFE), \begin{equation*} \mathbf X_t = \mathbf X_s\wedge\mathbf X_{ss}, \end{equation*} taking a planar regular polygon of $M$ sides as initial datum. We…

Number Theory · Mathematics 2015-01-14 Francisco de la Hoz , Luis Vega

In this paper, we give a rigorous proof for the expression of the angle between adjacent sides in the skew polygons appearing at rational times in the evolution of regular polygons of $M$ sides under the vortex filament equation. The proof…

Number Theory · Mathematics 2024-07-16 Fernando Chamizo , Francisco de la Hoz

With the aim of quantifying turbulent behaviors of vortex filaments, we study the multifractality and intermittency of the family of generalized Riemann's non-differentiable functions \begin{equation} R_{x_0}(t) = \sum_{n \neq 0}…

Analysis of PDEs · Mathematics 2025-07-15 Valeria Banica , Daniel Eceizabarrena , Andrea R. Nahmod , Luis Vega

The Vortex Filament Equation (VFE) is part of an integrable hierarchy of filament equations. Several equations part of this hierarchy have been derived to describe vortex filaments in various situations. Inspired by these results, we…

Exactly Solvable and Integrable Systems · Physics 2016-06-29 Thomas Ivey , Stephane Lafortune

In this paper, we give evidence that the evolution of the Vortex Filament Equation for a regular $M$-corner polygon as initial datum can be explained at infinitesimal times as the superposition of $M$ one-corner initial data. Therefore, and…

Numerical Analysis · Mathematics 2018-08-01 Francisco de la Hoz , Luis Vega

In this proceedings article we survey the results in [5] and their motivation, as presented at the 50th Journ\'ees EDP 2024. With the aim of quantifying turbulent behaviors of vortex filaments, we study the multifractality of a family of…

Analysis of PDEs · Mathematics 2024-12-09 Valeria Banica , Daniel Eceizabarrena , Andrea. R. Nahmod , Luis Vega

We consider a nonlinear model equation, known as the Localized Induction Equation, describing the motion of a vortex filament immersed in an incompressible and inviscid fluid. We prove the unique solvability of an initial-boundary value…

Analysis of PDEs · Mathematics 2017-04-14 Masashi Aiki

Symplectic geometry of the vortex filament in a curved three-manifold is investigated. There appears an infinite sequence of constants of motion in involution in the case of constant curvature. The Duistermaat-Heckman formula is examined…

High Energy Physics - Theory · Physics 2009-10-28 Yukinori Yasui , Waichi Ogura

We consider a nonlinear model equation describing the motion of a vortex filament immersed in an incompressible and inviscid fluid. In the present problem setting, we also take into account the effect of external flow. We prove the unique…

Analysis of PDEs · Mathematics 2018-09-14 Masashi Aiki , Tatsuo Iguchi

We consider a nonlinear third order dispersive equation which models the motion of a vortex filament immersed in an incompressible and inviscid fluid occupying the three dimensional half space. We prove the unique solvability of…

Analysis of PDEs · Mathematics 2012-12-04 Masashi Aiki , Tatsuo Iguchi

The vortex filament equations (VFE) in 1+1 and 2+1 dimensions are considered. Some of these equations are integrable. Also the VFE with potentials and with self-consistent potentials are presented. Finally several examples of integrable…

Fluid Dynamics · Physics 2007-05-23 R. Myrzakulov

In this paper, we study the evolution of a vortex filament in an incompressible ideal fluid. Under the assumption that the vorticity is concentrated along a smooth curve in $\mathbb{R}^3$, we prove that the curve evolves to leading order by…

Analysis of PDEs · Mathematics 2017-01-04 Robert L. Jerrard , Christian Seis

We propose and analyze a system of nonlinear partial differential equations describing the motion of a pair of vortex filaments. Furthermore, for a pair of coaxial circular vortex filaments, we derive a condition for leapfrogging to occur…

Dynamical Systems · Mathematics 2018-03-06 Masashi Aiki

For the class of quasi-periodic solutions of the vortex filament equation, we study connections between the algebro-geometric data used for their explicit construction and the geometry of the evolving curves. We give a complete description…

Exactly Solvable and Integrable Systems · Physics 2007-05-23 Annalisa Calini , Thomas Ivey

Riemann's non-differentiable function is a classic example of a continuous function which is almost nowhere differentiable, and many results concerning its analytic regularity have been shown so far. However, it can also be given a…

Classical Analysis and ODEs · Mathematics 2020-03-05 Daniel Eceizabarrena

In this proceedings article we shall survey a series of results on the stability of self-similar solutions of the vortex filament equation. This equation is a geometric flow for curves in $\mathbb R^3$ and it is used as a model for the…

Analysis of PDEs · Mathematics 2013-08-22 Valeria Banica

We consider a nonlinear model equation, known as the Localized Induction Equation, describing the motion of a vortex filament immersed in an incompressible and inviscid fluid. We show stability estimates for an arc-shaped vortex filament,…

Analysis of PDEs · Mathematics 2024-03-21 Masashi Aiki

We review some recent results concerning the evolution of a vortex filament and its relation to the cubic non-linear Schr\"odinger equation. Selfsimilar solutions and questions related to their stability are studied.

Analysis of PDEs · Mathematics 2011-03-28 Valeria Banica , Luis Vega
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