Quenched asymptotics for a 1-d stochastic heat equation driven by a rough spatial noise
Abstract
In this note we consider the parabolic Anderson model in one dimension with time-independent fractional noise W in space. We consider the case H<12 and get existence and uniqueness of solution. In order to find the quenched asymptotics for the solution we consider its Feynman-Kac representation and explore the asymptotics of the principal eigenvalue for a random operator of the form 12 + W.
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