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Existence of standing wave solutions for coupled quasilinear Schrodinger systems with critical exponents in R-N

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Indexed by:期刊论文

Date of Publication:2017-01-01

Journal:ELECTRONIC JOURNAL OF QUALITATIVE THEORY OF DIFFERENTIAL EQUATIONS

Included Journals:ESI高被引论文、SCIE

Issue:12

Page Number:1-23

ISSN No.:1417-3875

Key Words:quasilinear Schrodinger system; critical growth; standing wave solutions; mountain pass theorem; (PS)(c) sequence

Abstract:This paper is concerned with the following quasilinear Schrodinger system in R-N:
   {-epsilon(2)Delta u + V-1(x)u-epsilon(2)Delta(u(2))u = K-1(x)|u|22*(-2)u + h(1)(x,u,v)u,
   -epsilon(2)Delta v + V2(x)u-epsilon(2)Delta(v(2))v = K2(x)|v|22*(-2)v + h(2)(x,u,v)v,
   where N >= 3, V-i (x) is a nonnegative potential, K-i (x) is a bounded positive function, i = 1, 2. h(1) (x, u, v) u and h(2) (x, u, v) v are superlinear but subcritical functions. Under some proper conditions, minimax methods are employed to establish the existence of standing wave solutions for this system provided that epsilon is small enough, more precisely, for any m is an element of N, it has m pairs of solutions if epsilon is small enough. And these solutions (u(epsilon), v(epsilon)) -> (0, 0) in some Sobolev space as epsilon -> 0. Moreover, we establish the existence of positive solutions when epsilon = 1. The system studied here can model some interaction phenomena in plasma physics.

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