Assume that a cubic polynomial differential system in the plane has four invariant straight lines in generic position, i.e. they are not parallel and no more than two straight lines intersect in a point. Then such a differential system only can have 0, 1 or 3 centers
In this paper, we characterize the global nilpotent centers of polynomial differential systems of th...
In the article LliVul2006 the family of cubic polynomial differential systems possessing invariant s...
Agraïments: The second author is partially supported by FEDER-UNAB10-4E-378.Agraïments: The third au...
We study the kind of centers that Hamiltonian Kolmogorov cubic polynomial differential systems can e...
A center p of a differential system in R2 is global if R2\ { p} is filled of periodic orbits. It is ...
The problem of distinguishing between a focus and a center is one of the classical problems in the q...
A center p of a differential system in R2 is global if R2\ { p} is filled of periodic orbits. It is ...
Agraïments: The second author has been partially supported by FCT through CAMGSD, Lisbon
Agraïments: W. Aziz is financially supported by Ministry of Higher Education and Scientific Research...
A polynomial differential system of degree 2 has no global centers (that is, centers defined in all ...
A polynomial differential system of degree 2 has no global centers (that is, centers defined in all ...
We characterize the centers of the quasi-homogeneous planar polynomial differential systems of degre...
We characterize the centers of the quasi-homogeneous planar polynomial differential systems of degre...
In the article LliVul2006 the family of cubic polynomial differential systems possessing invariant s...
AbstractIn this paper we classify the centers localized at the origin of coordinates, and their isoc...
In this paper, we characterize the global nilpotent centers of polynomial differential systems of th...
In the article LliVul2006 the family of cubic polynomial differential systems possessing invariant s...
Agraïments: The second author is partially supported by FEDER-UNAB10-4E-378.Agraïments: The third au...
We study the kind of centers that Hamiltonian Kolmogorov cubic polynomial differential systems can e...
A center p of a differential system in R2 is global if R2\ { p} is filled of periodic orbits. It is ...
The problem of distinguishing between a focus and a center is one of the classical problems in the q...
A center p of a differential system in R2 is global if R2\ { p} is filled of periodic orbits. It is ...
Agraïments: The second author has been partially supported by FCT through CAMGSD, Lisbon
Agraïments: W. Aziz is financially supported by Ministry of Higher Education and Scientific Research...
A polynomial differential system of degree 2 has no global centers (that is, centers defined in all ...
A polynomial differential system of degree 2 has no global centers (that is, centers defined in all ...
We characterize the centers of the quasi-homogeneous planar polynomial differential systems of degre...
We characterize the centers of the quasi-homogeneous planar polynomial differential systems of degre...
In the article LliVul2006 the family of cubic polynomial differential systems possessing invariant s...
AbstractIn this paper we classify the centers localized at the origin of coordinates, and their isoc...
In this paper, we characterize the global nilpotent centers of polynomial differential systems of th...
In the article LliVul2006 the family of cubic polynomial differential systems possessing invariant s...
Agraïments: The second author is partially supported by FEDER-UNAB10-4E-378.Agraïments: The third au...
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