Saddle-shaped solutions of bistable diffusion equations in all of $\mathbb{R}^{2m}$

Details Saddle-shaped solutions of bistable diffusion equations in all of $\mathbb{R}^{2m}$ Saddle-shaped solutions of bistable diffusion equations in all of $\mathbb{R}^{2m}$

2008-01-22

arxiv.org/abs/0801.3379v1

Mathematics

Analysis of PDEs

Scientific paper

We study the existence and instability properties of saddle-shaped solutions of the semilinear elliptic equation $-\Delta u = f(u)$ in the whole $\R^{2m}$, where $f$ is of bistable type. It is known that in dimension $2m=2$ there exists a saddle-shaped solution. This is a solution which changes sign in $\R^2$ and vanishes only on $\{|x_1|=|x_2|\}$. It is also known that this solution is unstable. In this article we prove the existence of saddle-shaped solutions in every even dimension, as well as their instability in the case of dimension $2m=4$. More precisely, our main result establishes that if $2m=4$, every solution vanishing on the Simons cone $\{(x^1,x^2)\in\R^m\times\R^m : |x^1|=|x^2|\}$ is unstable outside of every compact set and, as a consequence, has infinite Morse index. These results are relevant in connection with a conjecture of De Giorgi extensively studied in recent years and for which the existence of a counter-example in high dimensions is still an open problem.

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