LONG TIME BEHAVIOUR OF GENERALISED GRADIENT FLOWS VIA OCCUPATIONAL MEASURES
Résumé
This paper introduces new methods to study the long time behaviour of the generalised gradient flow associated with a solution of the critical equation for mechanical Hamiltonian system posed on the flat torus $\mathbb{T}^d$ . For this analysis it is necessary to look at the critical set of u consisting of all the points on T d such that zero belongs to the super-differential of such a solution. Indeed, such a set turns out to be an attractor for the generalised gradient flow. Moreover, being the critical set the union of two subsets of rather different nature, namely the regular critical set and the singular set, we are interested in establishing whether the generalised gradient flow approaches the former or the latter as $t \to \infty$. One crucial tool of our analysis is provided by limiting occupational measures, a family of measures that are invariant under the generalized flow. Indeed, we show that by integrating the potential with respect to such measures, one can deduce whether the generalised gradient flow enters the singular set in finite time, or it approaches the regular critical set as time tends to infinity.
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