This article studies the existence of analytic invariant curves for a nonlinear second order difference equation which was modeled from macroeconomics of the business cycle. The author not only discusses the case of t...This article studies the existence of analytic invariant curves for a nonlinear second order difference equation which was modeled from macroeconomics of the business cycle. The author not only discusses the case of the eigenvalue off the unit circle S^1 and the case on S^1 with the Diophantine condition but also considers the case of the eigenvalue at a root of the unity, which obviously violates the Diophantine condition.展开更多
In this paper, the differential equation involving iterates of the unknown function,x'(z)=[a^2-x^2(z)]x^[m](z)with a complex parameter a, is investigated in the complex field C for the existence of analytic sol...In this paper, the differential equation involving iterates of the unknown function,x'(z)=[a^2-x^2(z)]x^[m](z)with a complex parameter a, is investigated in the complex field C for the existence of analytic solutions. First of all, we discuss the existence and the continuous dependence on the parameter a of analytic solution for the above equation, by making use of Banach fixed point theorem. Then, as well as in many previous works, we reduce the equation with the SchrSder transformation x(z) = y(αy^-1(z)) to the following another functional differential equation without iteration of the unknown functionαy'(αz)=[a^2-y^2(αz)]y'(z)y(α^mz),which is called an auxiliary equation. By constructing local invertible analytic solutions of the auxiliary equation, analytic solutions of the form y(αy^-1 (z)) for the original iterative differential equation are obtained. We discuss not only these α given in SchrSder transformation in the hyperbolic case 0 〈 |α| 〈 1 and resonance, i.e., at a root of the unity, but also those α near resonance (i.e., near a root of the unity) under Brjuno condition. Finally, we introduce explicit analytic solutions for the original iterative differential equation by means of a recurrent formula, and give some particular solutions in the form of power functions when a = 0.展开更多
The Sacker- Sell problem in quasiperiodic case, whether quasiperiodic linear differential systems can be quasiperiodically triangulari2ed, is studied. A class of more concrete quasiperiodic linear differential systems...The Sacker- Sell problem in quasiperiodic case, whether quasiperiodic linear differential systems can be quasiperiodically triangulari2ed, is studied. A class of more concrete quasiperiodic linear differential systems which are not quasiperiodically triangularized are given under the stronger conditions: (i) the coefficient matrix is of C; (ii) the frequency satisfies the Diophantine condition. A sufficient condition for quasiperiodic triangularization of quasiperiodic linear differential systems is also established.展开更多
基金supported by the Fund of Educational Reform Project of Guangxi Province of China (200710961)the Scientific Research Foundation of the Education Department of Guangxi Province of China (200707MS112)+1 种基金the Natural Science Fund of Hechi University (2006N001)the fund of Key discipline of applied mathematics of Hechi University (200725)
文摘This article studies the existence of analytic invariant curves for a nonlinear second order difference equation which was modeled from macroeconomics of the business cycle. The author not only discusses the case of the eigenvalue off the unit circle S^1 and the case on S^1 with the Diophantine condition but also considers the case of the eigenvalue at a root of the unity, which obviously violates the Diophantine condition.
基金supported by Natural Science Foundation of University of Ji'nan (Grant No. XKY0704)the second author is partially supported by National Natural Science Foundation of China (Grant No. 10871117)NSFSP (Grant No. Y2006A07)
文摘In this paper, the differential equation involving iterates of the unknown function,x'(z)=[a^2-x^2(z)]x^[m](z)with a complex parameter a, is investigated in the complex field C for the existence of analytic solutions. First of all, we discuss the existence and the continuous dependence on the parameter a of analytic solution for the above equation, by making use of Banach fixed point theorem. Then, as well as in many previous works, we reduce the equation with the SchrSder transformation x(z) = y(αy^-1(z)) to the following another functional differential equation without iteration of the unknown functionαy'(αz)=[a^2-y^2(αz)]y'(z)y(α^mz),which is called an auxiliary equation. By constructing local invertible analytic solutions of the auxiliary equation, analytic solutions of the form y(αy^-1 (z)) for the original iterative differential equation are obtained. We discuss not only these α given in SchrSder transformation in the hyperbolic case 0 〈 |α| 〈 1 and resonance, i.e., at a root of the unity, but also those α near resonance (i.e., near a root of the unity) under Brjuno condition. Finally, we introduce explicit analytic solutions for the original iterative differential equation by means of a recurrent formula, and give some particular solutions in the form of power functions when a = 0.
文摘The Sacker- Sell problem in quasiperiodic case, whether quasiperiodic linear differential systems can be quasiperiodically triangulari2ed, is studied. A class of more concrete quasiperiodic linear differential systems which are not quasiperiodically triangularized are given under the stronger conditions: (i) the coefficient matrix is of C; (ii) the frequency satisfies the Diophantine condition. A sufficient condition for quasiperiodic triangularization of quasiperiodic linear differential systems is also established.
