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Exponential and Algebraical Stability of Traveling Wavefronts in Periodic Spatial-Temporal Environments

Global stability of traveling wavefronts in a periodic spatial-temporal environment in $n$-dimension ($n\ge 1$) is studied. The wavefront is proved to be exponentially stable in the form of $ O(e^{-μt})$ for some $μ>0$, when the wave speed is greater than the critical one, and algebraically stable in the form of $O(t^{-n/2})$ in the critical case. A new and easy to follow method is developed. These results are then extended to the case of time-periodic media. Finally, we illustrate how the stability result can be directly used to obtain the uniqueness of the wavefront with a given speed.

preprint2011arXivOpen access
Ming MeiChunhua OuXiao-Qiang Zhao
math.APmath.DS
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Ming MeiChunhua OuXiao-Qiang Zhao

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