Minimal period problems for brake orbits of nonlinear autonomous reversible semipositive Hamiltonian systems

Abstract

In this paper, for any positive integer n, we study the Maslov-type index theory of iL0, iL1 and i-1L0 with L0=\0\× n⊂ 2n and L1=n× \0\ ⊂ 2n. As applications we study the minimal period problems for brake orbits of nonlinear autonomous reversible Hamiltonian systems. For first order nonlinear autonomous reversible Hamiltonian systems in 2n, which are semipositive, and superquadratic at zero and infinity, we prove that for any T>0, the considered Hamiltonian systems possesses a nonconstant T periodic brake orbit XT with minimal period no less than T2n+2. Furthermore if ∫0T H"22(xT(t))dt is positive definite, then the minimal period of xT belongs to \T,\;T2\. Moreover, if the Hamiltonian system is even, we prove that for any T>0, the considered even semipositive Hamiltonian systems possesses a nonconstant symmetric brake orbit with minimal period belonging to \T,\;T3\