Svetlin Georgiev Georgiev

Copyright © 2007 Svetlin Georgiev Georgiev. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

We construct for every fixed n≥2 the metric gs=h1(r)dt2−h2(r)dr2−k1(ω)dω12−⋯−kn−1(ω)dωn−12, where h1(r), h2(r), ki(ω), 1≤i≤n−1, are continuous functions, r=|x|, for which we consider the Cauchy problem (utt−Δu)gs=f(u)+g(|x|), where x∈ℝn, n≥2; u(1,x)=u∘(x)∈L2(ℝn), ut(1,x)=u1(x)∈H˙−1(ℝn), where f∈𝒞1(ℝ1), f(0)=0, a|u|≤f′(u)≤b|u|, g∈𝒞(ℝ+), g(r)≥0, r=|x|, a and b are positive constants. When g(r)≡0, we prove that the above Cauchy problem has a nontrivial solution u(t,r) in the form u(t,r)=v(t)ω(r) for which limt→0‖u‖L2([0,∞))=∞. When g(r)≠0, we prove that the above Cauchy problem has a nontrivial solution u(t,r) in the form u(t,r)=v(t)ω(r) for which limt→0‖u‖L2([0,∞))=∞.