共查询到20条相似文献,搜索用时 31 毫秒
1.
Xingwu Chen Wentao Huang Valery G. Romanovski Weinian Zhang 《Journal of Mathematical Analysis and Applications》2011,383(1):179-189
In this paper we study the linearizability problem of polynomial-like complex differential systems. We give a reduction of linearizability problem of such non-polynomial systems to the problem of polynomial systems. Applying this reduction, we find some linearizability conditions for a time-reversible quartic-like complex system and derive from them conditions of isochronous center for the corresponding real system. 相似文献
2.
In this paper, we investigate the cyclicity of the period annulus of two classes of cubic isochronous systems.By using the Chebyshev criterion, we prove that the two systems have respectively at most three and four limit cycles produced fromthe period annulus around the isochronous center under cubic perturbations. 相似文献
3.
In this paper, we consider complex smooth and analytic vector fields X in a neighborhood of a nondegenerate singular point. It is proved the equivalence between linearizability and commutation, i.e., the existence of a commuting vector field Y such that the Lie brackets [X,Y]≡0. For complex smooth and analytic vector fields in the plane and in a neighborhood of a nondegenerate singular point, it is also proved the equivalence between integrability and the existence of a smooth vector field Y, such that Y is a normalizer of X, i.e., [X,Y]=μX. 相似文献
4.
Isochronicity and linearizability of two-dimensional polynomial Hamiltonian systems are revisited and new results are presented. We give a new computational procedure to obtain the necessary and sufficient conditions for the linearization of a polynomial system. Using computer algebra systems we provide necessary and sufficient conditions for linearizability of Hamiltonian systems with homogeneous non-linearities of degrees 5, 6 and 7. We also present some sufficient conditions for systems with nonhomogeneous nonlinearities of degrees two, three and five. 相似文献
5.
Xingwu Chen 《Journal of Computational and Applied Mathematics》2009,232(2):565-581
There are many methods such as Gröbner basis, characteristic set and resultant, in computing an algebraic set of a system of multivariate polynomials. The common difficulties come from the complexity of computation, singularity of the corresponding matrices and some unnecessary factors in successive computation. In this paper, we decompose algebraic sets, stratum by stratum, into a union of constructible sets with Sylvester resultants, so as to simplify the procedure of elimination. Applying this decomposition to systems of multivariate polynomials resulted from period constants of reversible cubic differential systems which possess a quadratic isochronous center, we determine the order of weak centers and discuss the bifurcation of critical periods. 相似文献
6.
In this paper we discuss bifurcation of critical periods in an m-th degree time-reversible system, which is a perturbation of an n-th degree homogeneous vector field with a rigidly isochronous center at the origin. We present period-bifurcation functions as integrals of analytic functions which depend on perturbation coefficients and reduce the problem of critical periods to finding zeros of a judging function. This procedure gives not only the number of critical periods bifurcating from the period annulus but also the location of these critical periods. Applying our procedure to the case n=m=2 we determine the maximum number of critical periods and their location; to the case n=m=3 we investigate the bifurcation of critical periods up to the first order in ε and obtain the expression of the second period-bifurcation function when the first one vanishes. 相似文献
7.
In this paper, the problem of center conditions and bifurcation of limit cycles at the infinity for a class of cubic systems are investigated. The method is based on a homeomorphic transformation of the infinity into the origin, the first 21 singular point quantities are obtained by computer algebra system Mathematica, the conditions of the origin to be a center and a 21st order fine focus are derived, respectively. Correspondingly, we construct a cubic system which can bifurcate seven limit cycles from the infinity by a small perturbation of parameters. At the end, we study the isochronous center conditions at the infinity for the cubic system. 相似文献
8.
Continuing Chicone and Jacobs’ work for planar Hamiltonian systems of Newton’s type, in this paper we study the local bifurcation of critical periods near a nondegenerate center of the cubic Liénard equation with cubic damping and prove that at most 2 local critical periods can be produced from either a weak center of finite order or the linear isochronous center and that at most 1 local critical period can be produced from nonlinear isochronous centers. 相似文献
9.
Jaume Llibre 《Journal of Mathematical Analysis and Applications》2009,357(2):427-189
In this paper we classify the centers, the cyclicity of their Hopf bifurcation and the isochronicity of the polynomial differential systems in R2 of degree d that in complex notation z=x+iy can be written as
10.
Integrability and linearizability of the Lotka-Volterra systems are studied. We prove sufficient conditions for integrable but not linearizable systems for any rational resonance ratio. We give new sufficient conditions for linearizable Lotka-Volterra systems. Sufficient conditions for integrable Lotka-Volterra systems with 3:−q resonance are given. In the particular cases of 3:−5 and 3:−4 resonances, necessary and sufficient conditions for integrable systems are given. 相似文献
11.
Francesc Mañ osas Pedro J. Torres 《Proceedings of the American Mathematical Society》2005,133(10):3027-3035
Motivated by a classical pendulum clock model suggested by Andrade in 1920, we study the equation and prove that for a nonlinear analytic the origin is never an isochronous focus or an isochronous center.
12.
Results about the study of nonanalytic systems’ center-focus and bifurcations of limit cycles are hardly seen in published references up till now. In this paper, we investigated the problems of determining center or focus and bifurcations for a class of planar quasi cubic analytic systems. The recursive formula to figure out generalized focal values is given, ulteriorly the conditions for four limit cycles from the origin or the point at infinity are obtained and center problems are considered. What is worth pointing out is that we offer a kind of interesting phenomenon that the exponent parameter λ control the non-analyticity of studied system (3.8) in this paper. In terms of nonanalytic differential systems, our work is new. 相似文献
13.
14.
Viktor Levandovskyy 《Journal of Differential Equations》2009,246(3):1274-1287
We present a method for investigating the cyclicity of an elementary focus or center of a polynomial system of differential equations by means of complexification of the system and application of algorithms of computational algebra, showing an approach to treating the case that the Bautin ideal B of focus quantities is not a radical ideal (more precisely, when the ideal BK is not radical, where BK is the ideal generated by the shortest initial string of focus quantities that, like the Bautin ideal, determines the center variety). We illustrate the method with a family of cubic systems. 相似文献
15.
Claudio A. Buzzi Paulo Ricardo da Silva Marco Antonio Teixeira 《Proceedings of the American Mathematical Society》2005,133(11):3323-3331
In this paper singularly perturbed reversible vector fields defined in without normal hyperbolicity conditions are discussed. The main results give conditions for the existence of infinitely many periodic orbits and heteroclinic cycles converging to singular orbits with respect to the Hausdorff distance.
16.
Li-jun YangDepartment of Mathematical Sciences of Tsinghua University Beijing China 《应用数学学报(英文版)》2002,18(2):315-324
Abstract We study isochronous centers of two classes of planar systems of ordinary differential equations.Forthe first class which is the Linard systems of the form =y-F(x),=-g(x) with a center at the origin, we provethat if g is isochronous(see Definiton 1.1),then the center is isochronous if and only if F≡0.For the secondclass which is the Hamiltonian systems of the form =-g(y),=f(x) with a center at the origin,we prove thatif f or g is isochronous,then the center is isochronous if and only if the other is also isochronous. 相似文献
17.
A. Vanderbauwhede 《Zeitschrift für Angewandte Mathematik und Physik (ZAMP)》1986,37(4):455-478
We study bifurcation of 2q-periodic solutions in one-parameter families of 2-periodic time-reversible systems. We obtain generically satisfied conditions which imply the bifurcation of 2q branches of such subharmonic solutions. Whenq5 the solutions alongq of these branches are unstable, while the solutions along the otherq branches are stable in a weak sense. Special results hold forq=3 andq=4. We also describe a situation in which there is secundary bifurcation and give a brief discussion of what happens under a perturbation which breaks the time-reversibility.
Zusammenfassung Wir untersuchen die Verzweigung von 2q-periodischen Lösungen in einer einparametrigen Familie von 2-periodischen reversiblen Differentialgleichungssystemen. Wir erhalten Bedingungen, welche die Verzweigung von 2q solcher subharmonischer Lösungen garantieren und die generisch erfüllt sind. Fürq5 sindq Lösungen instabil undq Lösungen (linear) stabil. Spezielle Resultate gelten fürq=3 undq=4. Wir untersuchen auch einen Fall in dem sekundäre Verzweigung eintritt und diskutieren kurz die Wirkung einer Störung, die die Reversibilität zerstört.相似文献
18.
We present necessary and sufficient conditions for a critical point of certain two-dimensional cubic differential systems to be a centre. Extensive use of the computer algebra system REDUCE is involved. The search for necessary and sufficient conditions for a centre has long been of considerable interest in the theory of nonlinear differential equations. It has proved to be a difficult problem, and full conditions are known for very few classes of systems. Such conditions are also required in the investigation of Hilbert's sixteenth problem concerning the number of limit cycles of polynomial systems. 相似文献
19.
On the center conditions of certain cubic systems 总被引:4,自引:0,他引:4
M. A. M. Alwash 《Proceedings of the American Mathematical Society》1998,126(11):3335-3336
This paper provides a new simple proof of a recent result by C. B. Collins (Differential and Integral Equations 10 (1997), 333-356) to derive the center conditions for a class of planar cubic systems. The idea is to consider periodic solutions of a related scalar non-autonomous equation.
20.
On the basis of some works on persistent centers and weakly persistent centers, in this paper we discuss a generalized version of persistent center and weakly persistent center for complex planar differential systems, in which conjugacy of variables may not be required. We give some complex systems which have a persistent center or weakly persistent center at the origin. Then, we find all conditions of persistent center for cubic systems and all conditions of weakly persistent center for complex cubic Lotka–Volterra system. Relations between complex systems and real ones are given concerning persistent centers and weakly persistent centers. 相似文献