Add to ORKGWe prove a formula for the $n$-th derivative of the period function $T$ in a period annulus of a planar differential system. For $n = 1$, we obtain Freire, Gasull and Guillamon formula for the period's first derivative \cite{FGG}. We apply such a result to hamiltonian systems with separable variables and other systems. We give some sufficient conditions for the period function of conservative second order O.D.E.'s to be convex
AbstractIn this paper, we study planar differential systems possessing a center at the origin. We in...
AbstractIn this work we study the period function T of solutions to the conservative equation x″(t)+...
We close the problem of the existence of period annuli in planar piecewise linear differential syste...
We prove a formula for the n-th derivative of the period function T in a period annulus of a planar ...
AbstractGiven a centre of a planar differential system, we extend the use of the Lie bracket to the ...
AbstractIf the Hamiltonian system with Hamiltonian H(x, y) = 12y2 + V(x) has a center at the origin ...
AbstractWe consider planar differential equations of the form z˙=f(z)g(z¯) being f(z) and g(z) holom...
AbstractThe paper deals with Hamiltonian systems with homogeneous nonlinearities. We prove that such...
We provide a criterion to determine the convexity of the period function for a class of planar Hamil...
Agraïments: The first author is partially supported by the DGES/FEDER grant MTM2011-26674-C02-01.In ...
The paper deals with Hamiltonian systems with homogeneous nonlinearities We prove that such systems...
In our paper [1] we are concerned with the problem of shape and period of isolated periodic solution...
In this work we study the criticality of some planar systems of polynomial differential equations hav...
AbstractWe construct a class of planar systems of arbitrary degree n having a reversible center at t...
Given a centre of a planar differential system, we extend the use of the Lie bracket to the determin...
AbstractIn this paper, we study planar differential systems possessing a center at the origin. We in...
AbstractIn this work we study the period function T of solutions to the conservative equation x″(t)+...
We close the problem of the existence of period annuli in planar piecewise linear differential syste...
We prove a formula for the n-th derivative of the period function T in a period annulus of a planar ...
AbstractGiven a centre of a planar differential system, we extend the use of the Lie bracket to the ...
AbstractIf the Hamiltonian system with Hamiltonian H(x, y) = 12y2 + V(x) has a center at the origin ...
AbstractWe consider planar differential equations of the form z˙=f(z)g(z¯) being f(z) and g(z) holom...
AbstractThe paper deals with Hamiltonian systems with homogeneous nonlinearities. We prove that such...
We provide a criterion to determine the convexity of the period function for a class of planar Hamil...
Agraïments: The first author is partially supported by the DGES/FEDER grant MTM2011-26674-C02-01.In ...
The paper deals with Hamiltonian systems with homogeneous nonlinearities We prove that such systems...
In our paper [1] we are concerned with the problem of shape and period of isolated periodic solution...
In this work we study the criticality of some planar systems of polynomial differential equations hav...
AbstractWe construct a class of planar systems of arbitrary degree n having a reversible center at t...
Given a centre of a planar differential system, we extend the use of the Lie bracket to the determin...
AbstractIn this paper, we study planar differential systems possessing a center at the origin. We in...
AbstractIn this work we study the period function T of solutions to the conservative equation x″(t)+...
We close the problem of the existence of period annuli in planar piecewise linear differential syste...