@ARTICLE{À venir, TITLE={[FORTHCOMING] Groupe de permutations avec deux orbites à mouvement constant}, AUTHOR={Mehdi Rezaei , Mehdi Alaeiyan, }, JOURNAL={Avancées en Mathématiques Pures et Appliquées}, VOLUME={}, NUMBER={Articles à paraître
}, YEAR={2024}, URL={http://openscience.fr/Groupe-de-permutations-avec-deux-orbites-a-mouvement-constant}, DOI={À venir}, ISSN={1869-6090}, ABSTRACT={Let $$$G$$$ be a permutation group on a set $$$\Omega$$$ with no fixed points in $$$\Omega$$$, and let $$$m$$$ be a positive integer. If for each subset $$$\Gamma$$$ of $$$\Omega$$$ the size $$$\Gamma^{g}-\Gamma|$$$ is bounded, for $$$g\in G$$$, the movement of $$$g$$$ is defined as move $$$(g):=\max{|\Gamma^{g}-\Gamma|}$$$ over all subsets $$$\Gamma$$$ of $$$\Omega$$$, and move $$$(G)$$$ is defined as the maximum of move $$$(g)$$$ over all non-identity elements of $$$g\in G$$$. Suppose that $$$G$$$ is not a 2-group. It was shown by Praeger that $$$|\Omega|\leqslant\lceil\frac{2mp}{p-1}\rceil+t-1$$$, where $$$t$$$ is the number of $$$G$$$-orbits on $$$\Omega$$$ and $$$p$$$ is the least odd prime dividing $$$|G|$$$. In this paper, we classify all permutation groups with maximum possible degree $$$|\Omega|=\lceil\frac{2mp}{p-1}\rceil+t-1$$$ for $$$t=2$$$, in which every non-identity element has constant movement $$$m$$$.}}