In the framework of the planar Euler problem in the quasi–periodic regime, the formulae of the periods available in the literature are simple only on one side of their singularity. In this paper, we complement such formulae with others, which result simpler on the other side. The derivation of such new formulae uses the Keplerian limit and complex analysis tools. As an application, we prove a conjecture by H. Dullin and R. Montgomery, which states that such periods, as well as their ratio, the rotation number, are monotone functions of their non–trivial first integral, at any fixed energy level.
Proof of a Conjecture by H. Dullin and R. Montgomery
Gabriella Pinzari
Conceptualization
In corso di stampa
Abstract
In the framework of the planar Euler problem in the quasi–periodic regime, the formulae of the periods available in the literature are simple only on one side of their singularity. In this paper, we complement such formulae with others, which result simpler on the other side. The derivation of such new formulae uses the Keplerian limit and complex analysis tools. As an application, we prove a conjecture by H. Dullin and R. Montgomery, which states that such periods, as well as their ratio, the rotation number, are monotone functions of their non–trivial first integral, at any fixed energy level.
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