On ill-posedness of nonlinear stochastic wave equations driven by rough noise
Abstract
We highlight a fundamental ill-posedness issue for nonlinear stochastic wave equations driven by a fractional noise. Namely, if the noise becomes too rough (i.e., the sum of its Hurst indexes becomes too small), then there is essentially no hope to provide an interpretation of the model, whether directly or through a Wick-type renormalization procedure. This phenomenon can be compared with the situation of a general SDE driven by a two-dimensional fractional noise of index H≤ 14. Our results clarify and extend previous similar properties exhibited in [3] or in [14].
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