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Inviscid Burgers equation with random kick forcing in noncompact setting
We develop ergodic theory of the inviscid Burgers equation with random kick
forcing in noncompact setting. The results are parallel to those in our recent
work on the Burgers equation with Poissonian forcing. However, the analysis
based on the study of one-sided minimizers of the relevant action is different.
In contrast with previous work, finite time coalescence of the minimizers does
not hold, and hyperbolicity (exponential convergence of minimizers in reverse
time) is not known. In order to establish a One Force --- One Solution
principle on each ergodic component, we use an extremely soft method to prove a
weakened hyperbolicity property and to construct Busemann functions along
appropriate subsequences.Comment: 58 pages. This is an extension of work in arXiv:1205.6721 to the
kick-forcing setting. In this version, instead of Kesten's concentration
inequality, the more basic Azuma--Hoeffding inequality is used in Section
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