We address the energy transfer in the differential system {uttt+αutt−βΔut−γΔu=−ηΔθθt−κΔθ=ηΔutt+αηΔut made by a Moore-Gibson-Thompson equation in the supercritical regime, hence antidissipative, coupled with the classical heat equation. The asymptotic properties of the related solution semigroup depend on the strength of the coupling, ruling the competition between the Fourier damping and the MGT antidamping. Exponential stability will be shown always to occur, provided that the coupling constant is sufficiently large with respect to the other structural parameters. A fact of general interest will be also discussed, namely, the impossibility of attaining the optimal exponential decay rate of a given dissipative system via energy estimates.
The MGT-Fourier model in the supercritical case
Monica Conti;Lorenzo Liverani;Vittorino Pata
2021-01-01
Abstract
We address the energy transfer in the differential system {uttt+αutt−βΔut−γΔu=−ηΔθθt−κΔθ=ηΔutt+αηΔut made by a Moore-Gibson-Thompson equation in the supercritical regime, hence antidissipative, coupled with the classical heat equation. The asymptotic properties of the related solution semigroup depend on the strength of the coupling, ruling the competition between the Fourier damping and the MGT antidamping. Exponential stability will be shown always to occur, provided that the coupling constant is sufficiently large with respect to the other structural parameters. A fact of general interest will be also discussed, namely, the impossibility of attaining the optimal exponential decay rate of a given dissipative system via energy estimates.| File | Dimensione | Formato | |
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