On Vanishing Theorems For Vector Bundle Valued p-Forms And Their Applications
Abstract
Let be a strictly increasing function with . We unify the concepts of -harmonic maps, minimal hypersurfaces, maximal spacelike hypersurfaces, and Yang-Mills Fields, and introduce -Yang-Mills fields, -degree, -lower degree, and generalized Yang-Mills-Born-Infeld fields (with the plus sign or with the minus sign) on manifolds. When and the -Yang-Mills field becomes an ordinary Yang-Mills field, -Yang-Mills field, a generalized Yang-Mills-Born-Infeld field with the plus sign, and a generalized Yang-Mills-Born-Infeld field with the minus sign on a manifold respectively. We also introduce the energy functional (resp. -Yang-Mills functional) and derive the first variational formula of the energy functional (resp. -Yang-Mills functional) with applications. In a more general frame, we use a unified method to study the stress-energy tensors that arise from calculating the rate of change of various functionals when the metric of the domain or base manifold is changed. These stress-energy tensors, linked to -conservation laws yield monotonicity formulae. A "macroscopic" version of these monotonicity inequalities enables us to derive some Liouville type results and vanishing theorems for forms with values in vector bundles, and to investigate constant Dirichlet boundary value problems for 1-forms. In particular, we obtain Liouville theorems for harmonic maps (e.g. -harmonic maps), and Yang-Mills fields (e.g. generalized Yang-Mills-Born-Infeld fields on manifolds). We also obtain generalized Chern type results for constant mean curvature type equations for forms on and on manifolds with the global doubling property by a different approach. The case and is due to Chern.
Cite
@article{arxiv.1003.3777,
title = {On Vanishing Theorems For Vector Bundle Valued p-Forms And Their Applications},
author = {Yuxin Dong and Shihshu Walter Wei},
journal= {arXiv preprint arXiv:1003.3777},
year = {2015}
}
Comments
1. This is a revised version with several new sections and an appendix that will appear in Communications in Mathematical Physics. 2. A "microscopic" approach to some of these monotonicity formulae leads to celebrated blow-up techniques and regularity theory in geometric measure theory. 3. Our unique solution of the Dirichlet problems generalizes the work of Karcher and Wood on harmonic maps