Positive effects of multiplicative noise on the explosion of nonlinear fractional stochastic differential equations
Abstract
For the nonlinear stochastic partial differential equation which is driven by multiplicative noise of the form \[Dtβ u = [ - ( - )su + ζ ( u ) ]dt + AΣm ∈ Z0d Σj = 1d - 1 θ mσ m,j( x ) dWtm,j,\;\; s 1,\;\;12 < β < 1,\] where Dtβ denotes the Caputo derivative, A>0 is a constant depending on the noise intensity, represent the Stratonovich-type stochastic differential, we consider the blow-up time of its solutions. We find that the introduction of noise can effectively delay the blow-up time of the solution to the deterministic differential equation when ζ in the above equation satisfies some assumptions. A key element in our construction is using the Galerkin approximation and a priori estimates methods to prove the existence and uniqueness of the solutions to the above stochastic equations, which can be regarded as the fractional order extension of the conclusions in flandoli2021delayed. We also verify the validation of hypotheses in the time fractional Keller-Segel and time fractional Fisher-KPP equations in 3D case.
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