Global existence for wave and beam equations with double damping and a new power nonlinearity

Abstract

We consider the Cauchy problem in Rn for wave and beam equations with frictional, viscoelastic damping, and a new power nonlinearity. In addition to the solution and its total energy, we define the following quantity: Q[u](t):=\|ut(t,·)+(-Δ)σu(t,·)\|L2(Rn). Our aim is to show that the interaction between frictional and viscoelastic damping in a linear model leads to an exponential decay of Q[u](t) as t ∞. This decay motivates us to define a new power nonlinearity of the form N[u]:=|ut+(-Δ)σu|p. Surprisingly, N[u] can be considered a small perturbation for any p>1, in the sense that, the decay estimates of the unique global solution, the total energy and Q[u](t) coincide with those for solutions to the corresponding linear Cauchy problem with vanishing right-hand side.

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