On the Fill-in of Nonnegative Scalar Curvature Metrics

Abstract

In the first part of this paper, we consider the problem of fill-in of nonnegative scalar curvature (NNSC) metrics for a triple of Bartnik data (,γ,H). We prove that given a metric γ on Sn-1 (3≤ n≤ 7), (Sn-1,γ,H) admits no fill-in of NNSC metrics provided the prescribed mean curvature H is large enough (Theorem Thm: no fillin nonnegative scalar 2). Moreover, we prove that if γ is a positive scalar curvature (PSC) metric isotopic to the standard metric on Sn-1, then the much weaker condition that the total mean curvature ∫ Sn-1H\, dμγ is large enough rules out NNSC fill-ins, giving an partially affirmative answer to a conjecture by Gromov (see P.\,23 in Gromov4). In the second part of this paper, we investigate the θ-invariant of Bartnik data and obtain some sufficient conditions for the existence of PSC fill-ins.