Luca Franzoi scite author profile

We prove the first bifurcation result of time quasi-periodic traveling wave solutions for space periodic water waves with vorticity. In particular, we prove the existence of small amplitude time quasi-periodic solutions of the gravity-capillary water waves equations with constant vorticity, for a bidimensional fluid over a flat bottom delimited by a space-periodic free interface. These quasi-periodic solutions exist for all the values of depth, gravity and vorticity, and restrict the surface tension to a Borel set of asymptotically full Lebesgue measure.

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Reducibility for a fast-driven linear Klein–Gordon equation

Franzoi

Maspero

2019

Annali di Matematica

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We prove a reducibility result for a linear Klein-Gordon equation with a quasi-periodic driving on a compact interval with Dirichlet boundary conditions. No assumptions are made on the size of the driving, however we require it to be fast oscillating. In particular, provided that the external frequency is sufficiently large and chosen from a Cantor set of large measure, the original equation is conjugated to a time independent, diagonal one. We achieve this result in two steps. First, we perform a preliminary transformation, adapted to fast oscillating systems, which moves the original equation in a perturbative setting. Then we show that this new equation can be put to constant coefficients by applying a KAM reducibility scheme, whose convergence requires a new type of Melnikov conditions.

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Quadratic Life Span of Periodic Gravity-capillary Water Waves

2020

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Quadratic life span of periodic gravity-capillary water waves

Berti¹,

Feola²,

Franzoi³

2019

Preprint

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We consider the gravity-capillary water waves equations for a bi-dimensional fluid with a periodic one-dimensional free surface. We prove a rigorous reduction of this system to Birkhoff normal form up to cubic degree. Due to the possible presence of 3-waves resonances for general values of gravity, surface tension and depth, such normal form may be not trivial and exhibit a chaotic dynamics (Wilton-ripples). Nevertheless we prove that for all the values of gravity, surface tension and depth, initial data that are of size ε in a sufficiently smooth Sobolev space lead to a solution that remains in an ε-ball of the same Sobolev space up times of order ε −2 . We exploit that the 3-waves resonances are finitely many, and the Hamiltonian nature of the Birkhoff normal form.

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Space quasi-periodic steady Euler flows close to the inviscid Couette flow

Franzoi¹,

Masmoudi²,

Montalto³

2023

Preprint

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We prove the existence of steady space quasi-periodic stream functions, solutions for the Euler equation in vorticity-stream function formulation in the two dimensional channel R ˆr´1, 1s. These solutions bifurcate from a prescribed shear equilibrium near the Couette flow, whose profile induces finitely many modes of oscillations in the horizontal direction for the linearized problem. Using a Nash-Moser implicit function iterative scheme, near such equilibrium we construct small amplitude, space reversible stream functions slightly deforming the linear solutions and retaining the horizontal quasi-periodic structure. These solutions exist for most values of the parameters characterizing the shear equilibrium. As a by-product, the streamlines of the nonlinear flow exhibit Kelvin's cat eye-like trajectories arising from the finitely many stagnation lines of the shear equilibrium.

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Luca Franzoi

Traveling Quasi-periodic Water Waves with Constant Vorticity

Reducibility for a fast-driven linear Klein–Gordon equation

Quadratic Life Span of Periodic Gravity-capillary Water Waves

Quadratic life span of periodic gravity-capillary water waves

Space quasi-periodic steady Euler flows close to the inviscid Couette flow

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