Solutions for a critical elliptic system with periodic boundary condition
Abstract
In this paper, we consider the following nonlinear critical Schr\"odinger system: eqnarray*cases - u=K1(y)u2*-1+12 u2*2-1v2*2, \,\,\,\,\,y∈,\,\,\,\,\,u>0, - v=K2(y)v2*-1+12 v2*2-1u2*2, \,\,\,\,\,y∈,\,\,\,\,\,v>0, u(y'+Lej,y'')=u(y), \,\,\,\,\,∂ u(y'+Lej,y'')∂ yj=∂ u(y)∂ yj, \,\,\,\,\,if\,\, y'=-L2ej,\,\,\,j=1, …, k, v(y'+Lej,y'')=v(y), \,\,\,\,\,∂ v(y'+Lej,y'')∂ yj=∂ v(y)∂ yj, \,\,\,\,\,if\,\, y'=-L2ej,\,\,\,j=1, …, k, u,v 0 \,\,as \,\,|y''| ∞, cases eqnarray* where K1(y),\,K2(y) satisfy some periodic conditions and is a strip. Under some conditions which are weaker than Li, Wei and Xu(J. Reine Angew. Math. 743: 163-211, 2018), we prove that there exists a single bubbling solution for the above system. Moreover, as the appearance of the coupling terms, we construct different forms of solutions, which makes it more interesting. Since there are periodic boundary conditions, this expansion for the difference between the standard bubbles and the approximate bubble can not be obtained by using the comparison theorem as one usually does for Dirichlet boundary condition. To overcome this difficulty, we will use the Green's function of - in with periodic boundary conditions which helps us find the approximate bubble. Due to the lack of the Sobolev inequality, we will introduce a suitable weighted space to carry out the reduction.
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