1. Gauge functions, Eikonal equations and Bôcher’s theorem on stratified Lie groups
- Author
-
Ermanno Lanconelli, Andrea Bonfiglioli, Bonfiglioli A., and Lanconelli E.
- Subjects
Discrete mathematics ,Eikonal equation ,Applied Mathematics ,Gradient-related ,Homogeneous function ,Carnot group ,Lie group ,Bôcher's theorem ,Omega ,symbols.namesake ,symbols ,Nabla symbol ,Analysis ,Mathematics - Abstract
Let \({\mathcal{L} = \sum_{i=1}^m X_i^2}\) be a real sub-Laplacian on a Carnot group \({\mathbb{G}}\) and denote by \({\nabla_\mathcal{L} = (X_1,\ldots,X_m)}\) the intrinsic gradient related to \({\mathcal{L}}\). Our aim in this present paper is to analyze some features of the \({\mathcal{L}}\)-gauge functions on \({\mathbb{G}}\), i.e., the homogeneous functions d such that \({\mathcal{L}(d^\gamma) = 0}\) in \({\mathbb{G} \setminus \{0\}}\) , for some \({\gamma \in \mathbb{R} \setminus \{0\}}\). We consider the relation of \({\mathcal{L}}\)-gauge functions with: the \({\mathcal{L}}\)-Eikonal equation \({|\nabla_\mathcal{L} u| = 1}\) in \({\mathbb{G}}\); the Mean Value Formulas for the \({\mathcal{L}}\)-harmonic functions; the fundamental solution for \({\mathcal{L}}\); the Bocher-type theorems for nonnegative \({\mathcal{L}}\)-harmonic functions in “punctured” open sets \({\dot \Omega:= \Omega \setminus \{x_0\}}\).
- Published
- 2007