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The Conley conjecture for Hamiltonian systems on the cotangent bundle and its analogue for Lagrangian systems | | Guangcun Lu
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3 Jun 2008 | | Abstract: | In this paper, the Conley conjecture, which were recently proved by Franks
and Handel cite{FrHa} (for surfaces of positive genus), Hingston cite{Hi}
(for tori) and Ginzburg cite{Gi} (for closed symplectically aspherical
manifolds), is proved for $C^1$-Hamiltonian systems on the cotangent bundle of
a $C^3$-smooth compact manifold $M$ without boundary, of a time 1-periodic
$C^2$-smooth Hamiltonian $H:R imes T^ast M oR$ which is strongly convex
and has quadratic growth on the fibers. Namely, we show that such a Hamiltonian
system has an infinite sequence of contractible integral periodic solutions
such that any one of them cannot be obtained from others by iterations. If $H$
also satisfies $H(-t,q, -p)=H(t,q, p)$ for any $(t,q, p)inR imes T^ast M$,
it is shown that the time-one map of the Hamiltonian system (if exists) has
infinitely many periodic points siting in the zero section of $T^ast M$. If
$M$ is $C^5$-smooth and $dim M>1$, $H$ is of $C^4$ class and independent of
time $t$, then for any $ au>0$ the corresponding system has an infinite
sequence of contractible periodic solutions of periods of integral multiple of
$ au$ such that any one of them cannot be obtained from others by iterations
or rotations. These results are obtained by proving similar results for the
Lagrangian system of the Fenchel transform of $H$, $L:R imes TM oR$, which
is proved to be strongly convex and to have quadratic growth in the velocities
yet. | | Source: | arXiv, 0806.0425 | | Services: | Forum | Review | PDF | Favorites | |
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