Layered solutions to the vector Allen-Cahn equation in $ R^2$. Characterization of minimizers and a new approach to heteroclinic connections
Abstract: Let $W:Rm\rightarrow R$ be a nonnegative potential with exactly two nondegenerate zeros $a_-\neq a_+\in Rm$. We assume that there are$ N\geq 1$ distinct heteroclinic orbits connecting $a_-$ to $a_+$ represented by maps $ u_1,\ldots,u_N$ that minimize the one-dimensional energy $J_R(u) =\int_R(\frac{\vert u\prime\vert2}{2}+W(u))ds$. We first consider the problem of characterizing the minimizers $u:Rn\rightarrow Rm$ of the energy $\mathcal{J}\Omega(u) =\int\Omega(\frac{\vert\nabla u\vert2}{2}+W(u))dx$. Under a nondegeneracy condition on $ u_1,\ldots,u_N $ and in two space dimensions, we prove that, provided it remains away from $a_-$ and $a_+$ in corresponding half spaces $S_-$ and $S_+$, a bounded minimizer $u:Rn\rightarrow Rm$ is necessarily an heteroclinic connection between suitable translates $ u_-(. -\eta_-)$ and $ u_+(. -\eta_+) $ of some $ u_\pm\in{ u_1,\ldots, u_N}$. Then we focus on the existence problem and assuming $N = 2$ and denoting $ u_-$ and $ u_+$ the representations of the two orbits connecting $ a_-$ to $ a_+$ we give a new proof of the existence (first proved in [31]) of a solution $ u:R2\rightarrow Rm $ of [\Delta u = W_u(u),] that connects certain translates of $ u_\pm $.
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