Add to ORKGWe review two formulations of the fully nonlinear local induction equation approximating the self-induced motion of the vortex filament (in the local induction approximation), corresponding to the Cartesian and arc-length coordinate systems. The arc-length representation put forth by Umeki [Theor. Comput. Fluid Dyn. 24, 383 (2010)] results in a type of 1 + 1 derivative nonlinear Schrodinger (NLS) equation describing the motion of such a vortex filament. We obtain exact stationary solutions to this derivative NLS equation; such exact solutions are a rarity. These solutions are periodic in space and we determine the nonlinear dependence of the period on the amplitude
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
A new asymptotic equation is derived for the motion of thin vortex filaments in an incompressible fl...
We provide a formulation of the local induction approximation (LIA) for the motion of a vortex filam...
The local induction approximation (LIA) is commonly used to study the motion of a vortex filament in...
The local induction approximation (LIA) is commonly used to study the motion of a vortex filament in...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
While the Hasimoto planar vortex filament is one of the few exact solutions to the local induction a...
While the Hasimoto planar vortex filament is one of the few exact solutions to the local induction a...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
A new asymptotic equation is derived for the motion of thin vortex filaments in an incompressible fl...
We provide a formulation of the local induction approximation (LIA) for the motion of a vortex filam...
The local induction approximation (LIA) is commonly used to study the motion of a vortex filament in...
The local induction approximation (LIA) is commonly used to study the motion of a vortex filament in...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
Very recently, Shivamoggi and van Heijst (Phys Lett A 374:1742, 2010) reformulated the Da Rios-Betch...
While the Hasimoto planar vortex filament is one of the few exact solutions to the local induction a...
While the Hasimoto planar vortex filament is one of the few exact solutions to the local induction a...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
In this brief communication, we demonstrate an implicit exact stationary solution to the fully nonli...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
We obtain the fully nonlinear local induction equation describing the motion of a vortex filament in...
A new asymptotic equation is derived for the motion of thin vortex filaments in an incompressible fl...