$\Phi$-Harmonic Maps and $\Phi$-Superstrongly Unstable Manifolds
Abstract
In this paper, we motivate and define -energy density, -energy, -harmonic maps and stable -harmonic maps. Whereas harmonic maps or -harmonic maps can be viewed as critical points of the integral of of a pull-back tensor, -harmonic maps can be viewed as critical points of the integral of of a pull-back tensor. By an extrinsic average variational method in the calculus of variations (cf. \cite{HW,WY,13,HaW}), we derive the average second variation formulas for -energy functional, express them in orthogonal notation in terms of the differential matrix, and find -superstrongly unstable - manifolds. We prove, in particular that every compact - manifold must be -strongly unstable -, i.e., A compact - manifold cannot be the target of any nonconstant stable -harmonic maps from any manifold, The homotopic class of any map from any manifold into a compact - manifold contains elements of arbitrarily small -energy, A compact - manifold cannot be the domain of any nonconstant stable -harmonic map into any manifold, and The homotopic class of any map from a compact - manifold into any manifold contains elements of arbitrarily small -energy (cf. Theorem , and .) We also provide many examples of -SSU manifolds, and establish a link of -SSU manifold to -SSU manifold and topology. The extrinsic average variational method in the calculus of variations that we have employed is in contrast to an average method in PDE that we applied in \cite {CW} to obtain sharp growth estimates for warping functions in multiply warped product manifolds.
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Cite
@article{arxiv.1911.05855,
title = {$\Phi$-Harmonic Maps and $\Phi$-Superstrongly Unstable Manifolds},
author = {Yingbo Han and Shihshu Walter Wei},
journal= {arXiv preprint arXiv:1911.05855},
year = {2019}
}
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49 pages