arXiv:1709.02455 Abstract | arXiv Analytics

arXiv:1709.02455 [math.AP]Abstract References Reviews Resources

A lower bound for the principal eigenvalue of fully nonlinear elliptic operators

Published 2017-09-07Version 1

In this article we present a new technique to obtain a lower bound for the principal Dirichlet eigenvalue of a fully nonlinear elliptic operator. We ilustrate the construction of an appropriate radial function required to obtain the bound in several examples. In particular we use our results to prove that $\lim_{p\to \infty}\lambda_{1,p}=\lambda_{1,\infty}=\left(\frac{\pi}{2R}\right)^2$ where $\lambda_{1,p}$ and $\lambda_{1,\infty}$ are the principal eigenvalue for the homogeneous $p$-laplacian and the homogeneous infinity laplacian respectively.

Categories: math.AP

Subjects: 35P15, 35P30, 35J60, 35J70

Keywords: fully nonlinear elliptic operator, lower bound, principal eigenvalue, appropriate radial function, principal dirichlet eigenvalue

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