Lp Solutions for Stochastic Evolution Equation with Nonlinear Potential

Abstract

This article considers the stochastic partial differential equation \[ \ arrayl ut = 12 uxx + uγ u(0,.) = u0 array. \] where is a space / time white noise Gaussian random field, γ > 1 and u0 is a non-negative initial condition independent of satisfying \[ u0 ≥ 0, n → +∞ E [ (∫S1 u0 (x) n dx )2 ] = E [ (∫S1 u0 (x) dx )2 ]< +∞.\] The space variable is x ∈ S1 = [0,1] with the identification 0 = 1. The definition of the stochastic term, taken in the sense of Walsh, will be made clear in the article. The result is that there exists a unique non-negative solution u such that for all α ∈ [0,1), \[E [ ( ∫0∞ ∫S1 u(t,x)2γ dx dt )α / 2 ] ≤ C( α) < + ∞. \] where the constant C(α) arises in the Burkholder-Davis-Gundy inequality. The solution is also shown to satisfy \[ E [ ∫0T (∫S1 u (t,x)p dx )α / p dt ] < +∞ ∀ T < +∞, p < +∞, α ∈ (0, 12 ). \]