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We introduce four invariants of algebraic varieties over imperfect fields, each of which measures either geometric non-normality or geometric non-reducedness. The first objective of this article is to establish fundamental properties of…

Algebraic Geometry · Mathematics 2020-10-14 Hiromu Tanaka

We construct divergence-free Sobolev vector fields in C([0,1];W^{1,r}(T^d;R^d)) with r < d and d >=2 which simultaneously admit any finite number of distinct positive solutions to the continuity equation. We then show that the vector fields…

Analysis of PDEs · Mathematics 2021-08-09 J. Pitcho , M. Sorella

We prove that a singular complex surface that admits a complete holomorphic vector field that has no invariant curve through a singular point of the surface is obtained from a Kato surface by contracting some divisor (in particular, it is…

Dynamical Systems · Mathematics 2016-03-09 Adolfo Guillot

The second part of the Hilbert's sixteenth problem consists in determining the upper bound $\mathcal{H}(n)$ for the number of limit cycles that planar polynomial vector fields of degree $n$ can have. For $n\geq2$, it is still unknown…

Dynamical Systems · Mathematics 2022-09-28 Douglas D. Novaes

For any arbitrary algebraic curve, we define an infinite sequence of invariants. We study their properties, in particular their variation under a variation of the curve, and their modular properties. We also study their limits when the…

Mathematical Physics · Physics 2007-05-23 Bertrand Eynard , Nicolas Orantin

We study the sheaves of logarithmic vector fields along smooth cubic curves in the projective plane, and prove a Torelli-type theorem in the sense of Dolgachev-Kapranov for those with non-vanishing j-invariants.

Algebraic Geometry · Mathematics 2007-10-11 Kazushi Ueda , Masahiko Yoshinaga

In the weakened 16th Hilbert's Problem one asks for a bound of the number of limit cycles which appear after a polynomial perturbation of a planar polynomial Hamiltonian vector field. It is known that this number is finite for an individual…

Dynamical Systems · Mathematics 2007-05-23 Marcin Bobienski , Henryk Zoladek

First we characterize all the polynomial vector fields in $\R^4$ which have the Clifford torus as an invariant surface. After we study the number of invariant meridians and parallels that such polynomial vector fields can have in function…

Dynamical Systems · Mathematics 2017-07-28 Jaume Llibre , Adrian C. Murza

In this paper we extend three results about polycycles (also known as graphs) of planar smooth vector field to planar non-smooth vector fields (also known as piecewise vector fields, or Filippov systems). The polycycles considered here may…

Dynamical Systems · Mathematics 2024-05-08 Paulo Santana

This paper studies the number of centers and limit cycles of the family of planar quartic polynomial vector fields that has the invariant algebraic curve $(4x^2-1)(4y^2-1)=0.$ The main interest for this type of vector fields comes from…

Dynamical Systems · Mathematics 2025-01-08 Armengol Gasull , Luiz F. S. Gouveia , Paulo Santana

This paper is concerned with closed orbits of non-smooth vector fields on the plane. For a subclass of non-smooth vector fields we provide necessary and sufficient conditions for the existence of canard kind solutions. By means of a…

Dynamical Systems · Mathematics 2015-03-13 Claudio Buzzi , Tiago de Carvalho , Paulo Ricardo da Silva

In this paper, we apply the averaging method via Brouwer degree in a class of planar systems given by a linear center perturbed by a sum of continuous homogeneous vector fields, to study lower bounds for their number of limit cycles. Our…

Dynamical Systems · Mathematics 2020-08-19 Claudio A. Buzzi , Yagor Romano Carvalho , Armengol Gasull

We study algebraic integrability of complex planar polynomial vector fields $X=A (x,y)(\partial/\partial x) + B(x,y) (\partial/\partial y) $ through extensions to Hirzebruch surfaces. Using these extensions, each vector field $X$ determines…

Algebraic Geometry · Mathematics 2024-05-01 Carlos Galindo , Francisco Monserrat , Elvira Pérez-Callejo

In this paper we give sufficient conditions to ensure uniqueness of limit cycles for a class of planar vector fields. We also exhibit a class of examples with exactly one limit cycle.

Classical Analysis and ODEs · Mathematics 2007-05-23 Timoteo Carletti

Limit cycles of planar polynomial vector fields have been an active area of research for decades; the interest in periodic-orbit related dynamics comes from Hilbert's 16th problem and the fact that oscillatory states are often found in…

Dynamical Systems · Mathematics 2022-01-11 Jose Mujica

For a given natural number $n$, the second part of Hilbert's 16th Problem asks whether there exists a finite upper bound for the maximum number of limit cycles that planar polynomial vector fields of degree $n$ can have. This maximum number…

Dynamical Systems · Mathematics 2024-11-15 Claudio A. Buzzi , Douglas D. Novaes

We study the number of limit cycles that a planar polynomial vector field can have as a function of its number $m$ of monomials. We prove that the number of limit cycles increases at least quadratically with $m$ and we provide good lower…

Dynamical Systems · Mathematics 2024-11-07 Armengol Gasull , Paulo Santana

We prove that every trajectory of a polynomial vector field on the complex projective plane accumulates to the singular locus of the vector field. This statement represents a holomorphic version of the Poincare-Bendixson theorem and solves…

Complex Variables · Mathematics 2010-04-16 Sergey Ivashkovich

Let $\mathcal{A}$ be a real line arrangement and $\mathcal{D}(\mathcal{A})$ the module of $\mathcal{A}$-derivations view as the set of polynomial vector fields which possess $\mathcal{A}$ as an invariant set. We first characterize…

Dynamical Systems · Mathematics 2015-04-23 Benoît Guerville-Ballé , Juan Viu-Sos

In this paper we address the following questions: (i) Let $C\subset \mathbb C^2$ be an orbit of a polynomial vector field which has finite total Gaussian curvature. Is $C$ contained in an algebraic curve? (ii) What can be said of a…

Complex Variables · Mathematics 2007-05-23 A. C. Mafra