Existence and multiplicity of solutions to the mean-field games model with mixed interactions

Abstract

In this paper, we consider the stationary version of the Mean-Field Games (MFG) models. Inspired by Albuquerque-Silva2020, Bieganowski-Mederski2021, Lin-Wei05, Mederski-Schino2021, we develop the minimization method on the Pohozaev manifold introduced in Soave20JDE, Soave20JFA for the existence theory of the stationary version of the Mean-Field Games (MFG) models with 2-homogeneous hamiltonians and mixed interactions. As applications, we prove the existence and multiplicity of radial solutions of the Mean-Field Games (MFG) models with general p-homogeneous hamiltonians and mixed interactions under more general conditions, some of which are even new for 2-homogeneous hamiltonians. We hope that our techniques and ideas introduced in this paper would be helpful in understanding the optimal value of the total mass in the existence theory of radial solutions to the Mean-Field Games (MFG) models with general p-homogeneous hamiltonians and mixed interactions, as well as that of other models.

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