| 摘 要: | The Cauchy problem for a linear 2mth-order Schrōdinger equation ut=-i(-△)^mu, in R^N×R+,u|t=0=u0;m≥1 is an integer,is studied, for initial data uo in the weighted space L^2ρ(R^N),withρ^*(x)=e|x|^a and a=2m/2m-1∈(1,2].The following five problems are studied: (I) A sharp asymptotic behaviour of solutions as t → +∞ is governed by a discrete spectrum and a countable set Ф of the eigenfunctions of the linear rescaled operator B=-i(-△)^m+1/2my·↓△+N/2mI,with the spectrum σ(B)={λβ=-|β|≥0}. (Ⅱ) Finite-time blow-up local structures of nodal sets of solutions as t → 0^- and a formation of "multiple zeros" are described by the eigenfunctions, being generalized Hermite polynomials, of the "adjoint" operator B=-i(-△)^m-1/2my·↓△,with the same spectrum σ(B^*)=σ(B).Applications of these spectral results also include: (Ⅲ) a unique continuation theorem, and (IV) boundary characteristic point regularity issues. Some applications are discussed for more general linear PDEs and for the nonlinear Schr6dinger equations in the focusing ("+") and defocusing ("-") cases ut=-(-△)^mu±i|u|^p-1u,in R^N×R+,where P〉1,as well as for: (V) the quasilinear Schr6dinger equation of a "porous medium type" ut=-(-△)^m(|u|^nu),in R^N×R+,where n〉0.For the latter one, the main idea towards countable families of nonlinear eigenfunctions is to perform a homotopic path n → 0^+ and to use spectral theory of the pair {B,B^*}.
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