In this paper we present a new method to study limit cycles’ hyperbolicity. The main tool is the function ? = ([V,W] ^ V )/(V ^W), where V is the vector field under investigation and W a transversal one. Our approach gives a high degree of freedom for choosing operators to study the stability. It is related to the divergence test, but provides more information on the system’s dynamics. We extend some previous results on hyperbolicity and apply our results to get limit cycles’ uniqueness. Li´enard systems and conservative+dissipative systems are considered among the applications
AbstractWe prove that any classical Liénard differential equation of degree four has at most one lim...
One of the major discoveries of the 20th century mathematics is the possibility of random behavior o...
We present a new approach to establish the existence of a unique limit cycle for the van der Pol equ...
In this paper we present a new method to study limit cycles’ hyperbolicity. The main tool is the fun...
AbstractIn this paper we present a new method to study limit cycles' hyperbolicity. The main tool is...
In this paper we present a new method to study limit cycles ’ hyper-bolicity. The main tool is the f...
AbstractGiven a planar vector field U which generates the Lie symmetry of some other vector field X,...
Given a planar vector field U which generates the Lie symmetry of some other vector field X, we prove ...
Given a planar vector field U which generates the Lie symmetry of some other vector field X, we prov...
28 pages; 20 figuresInternational audienceThis paper deals with the problem of location and existenc...
Over the past two decades the theory of limit cycles, especially for quadratic differential systems,...
Lima and Llibre [2012] have studied a class of planar continuous piecewise linear vector fields with...
We consider a family of planar vector fields that writes as a Liénard system in suitable coordinates...
Abstract. This paper deals with the problem of location and exis-tence of limit cycles for real plan...
For a given algebraic curve of degree $n$, we exhibit differential systems of degree greater than or...
AbstractWe prove that any classical Liénard differential equation of degree four has at most one lim...
One of the major discoveries of the 20th century mathematics is the possibility of random behavior o...
We present a new approach to establish the existence of a unique limit cycle for the van der Pol equ...
In this paper we present a new method to study limit cycles’ hyperbolicity. The main tool is the fun...
AbstractIn this paper we present a new method to study limit cycles' hyperbolicity. The main tool is...
In this paper we present a new method to study limit cycles ’ hyper-bolicity. The main tool is the f...
AbstractGiven a planar vector field U which generates the Lie symmetry of some other vector field X,...
Given a planar vector field U which generates the Lie symmetry of some other vector field X, we prove ...
Given a planar vector field U which generates the Lie symmetry of some other vector field X, we prov...
28 pages; 20 figuresInternational audienceThis paper deals with the problem of location and existenc...
Over the past two decades the theory of limit cycles, especially for quadratic differential systems,...
Lima and Llibre [2012] have studied a class of planar continuous piecewise linear vector fields with...
We consider a family of planar vector fields that writes as a Liénard system in suitable coordinates...
Abstract. This paper deals with the problem of location and exis-tence of limit cycles for real plan...
For a given algebraic curve of degree $n$, we exhibit differential systems of degree greater than or...
AbstractWe prove that any classical Liénard differential equation of degree four has at most one lim...
One of the major discoveries of the 20th century mathematics is the possibility of random behavior o...
We present a new approach to establish the existence of a unique limit cycle for the van der Pol equ...