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arxiv: 2211.06070 · v1 · pith:BBRYH3LBnew · submitted 2022-11-11 · 🧮 math.CA

Periodic solutions to superlinear indefinite planar systems: a topological degree approach

classification 🧮 math.CA
keywords periodicdifferentiallambdasolutionsbegincasesdegreeequation
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We deal with a planar differential system of the form \begin{equation*} \begin{cases} \, u' = h(t,v), \\ \, v' = - \lambda a(t) g(u), \end{cases} \end{equation*} where $h$ is $T$-periodic in the first variable and strictly increasing in the second variable, $\lambda>0$, $a$ is a sign-changing $T$-periodic weight function and $g$ is superlinear. Based on the coincidence degree theory, in dependence of $\lambda$, we prove the existence of $T$-periodic solutions $(u,v)$ such that $u(t)>0$ for all $t\in\mathbb{R}$. Our results generalize and unify previous contributions about Butler's problem on positive periodic solutions for second-order differential equations (involving linear or $\phi$-Laplacian-type differential operators).

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