Lack of superstable trajectories in linear viscoelasticity: A numerical approach

66/2022

Lack of superstable trajectories in linear viscoelasticity: A numerical approach

Wednesday 5th October 2022

Antonietti, P.F.; Liverani, L.; Pata, V.

Given a positive operator $A$ on some Hilbert space, and a nonnegative decreasing summable function $\mu$, we consider the abstract equation with memory $$ \ddot u(t)+ A u(t)- \int_0^t \mu(s)Au(t-s) ds=0 $$ modeling the dynamics of linearly viscoelastic solids. The purpose of this work is to provide numerical evidence of the fact that the energy $$E(t)=\Big(1-\int_0^t\mu(s)ds\Big)\|u(t)\|^2_1+\|\dot u(t)\|^2 +\int_0^t\mu(s)\|u(t)-u(t-s)\|^2_1ds,$$ of any nontrivial solution cannot decay faster than exponential, no matter how fast might be the decay of the memory kernel $\mu$. This will be accomplished by simulating the integro-differential equation for different choices of the memory kernel $\mu$ and of the initial data.

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Numerische Mathematik. https://doi.org/10.1007/s00211-023-01351-1