Michael Munn
Published 2007-12-05, updated 2009-12-17Version 3
Let $M^n$ be a complete, open Riemannian manifold with $\Ric \geq 0$. In 1994, Grigori Perelman showed that there exists a constant $\delta_{n}>0$, depending only on the dimension of the manifold, such that if the volume growth satisfies $\alpha_M := \lim_{r \to \infty} \frac{\Vol(B_p(r))}{\omega_n r^n} \geq 1-\delta_{n}$, then $M^n$ is contractible. Here we employ the techniques of Perelman to find specific lower bounds for the volume growth, $\alpha(k,n)$, depending only on $k$ and $n$, which guarantee the individual $k$-homotopy group of $M^n$ is trivial.
Comments: v3 is based on the earlier v1. The current version simplifies the argument of Lemma 2.4 and corrects some minor typos. We also include further discussion describing the main ideas behind Lemma 3.4 and Lemma 3.5. This article was accepted for publication and will appear in the Journal of Geometric Analysis
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