Response solutions for beam equations with nonlocal nonlinear damping and Liouvillean frequencies

Response solutions are quasi-periodic ones with the same frequency as the forcing term. The present work is devoted to the construction of response solutions for $d$-dimensional beam equations with nonlocal nonlinear damping, which model frictional mechanisms affecting the bodies based on the average. By considering $\epsilon$ in a domain that does not include the origin and imposing a small quasi-periodic forcing with Liouvillean frequency vector, which is weaker than the Diophantine or Brjuno one, we can show the existence of the response solution for such a model. We present an alternative approach to the contraction mapping principle (cf. [5,33]) through a combination of reduction and the Nash--Moser iteration technique. The reason behind this approach lies in the derivative losses caused by the nonlocal nonlinearity.Comment: 21 page