The influence of the random perturbations on the fourth-order nonlinear SchrSdinger equations,iut+△^2u+ε△u+λ|u|^p-1u=ξ,(t,x)∈R^+×R^n,n≥1,ε∈{-1,0,+1},is investigated in this paper. The local well-posedness in the energy space H^2(R^n) are proved for p 〉n+4/n+2,and p≤2^#-1 if n≥5.Global existence is also derived for either defocusing or focusing L^2-subcritical nonlinearities.
The weUposedness problem for an anisotropic incompressible viscous fluid in R3, ro- tating around a vector B(t, x) := (b1 (t, x), b2 (t, x), b3 (t, x)), is studied. The global wellposedness in the homogeneous case (B = e3) with sufficiently fast rotation in the space B0,1/2 is proved. In the inhomogeneous case (B = B(t, xh)), the global existence and uniqueness of the solution in B0,1/2 are obtained, provided that the initial data are sufficient small compared to the horizontal viscosity. Furthermore, we obtain uniform local existence and uniqueness of the solution in the x same function space. We also obtain propagation of the regularity in B2,11/2 under the additional assumption that B depends only on one horizontal space variable.
This paper is concerned with the decay estimate of high-order energy for a class of special time-dependent structural damped systems represented by Fourier multipliers. This model is widely used in the fields of semiconductivity, superconductivity, electromagnetic waves, electrolyte and electrode materials, etc.
