172 4. PROOF OF THE COMPACTNESS THEOREMNext we turn to prove that Fk£;r is a diffeomorphism. Since F[k is the
inverse of Ffj, by Proposition 4.34, for each f3 we have Fk£,/3 --+ id13 and
Fek,f3 --+ id13 when k, f, --+ oo. Then by a simple argument using Proposition4.54 we conclude that Fek roFke rand Fke roFek r both approach the identity
map when k, f, --+ oo. It follows ' ' that Fke,r ' is invertible. '
Now it follows from the inverse function theorem and Proposition 4.35
that Fi:/r is an (c',p)-pre-approximate isometry. Hence, given (c,p) and r,
there is~ ko such that Fk£;r is an (c,p)-approximate isometry fork,£ 2: ko.
Proposition 4.33 is proved.4.3. The directed system. We are now in a position to construct a
directed system whose direct limit will give us the limit manifold (M~, g 00 ).
We first show that, after passing to a subsequence, the existence of approx-
imate isometries whose compositions are also approximate isometries, as
close as we like to isometries.PROPOSITION 4.39 (Metrics are almost isometric on large balls). Thereexists a subsequence { (M1k., 1 9k.) 1 } such that for any c > 0 and p E N
jENthere exists Jo= Jo (c,p) EN such that if J >Jo, then there exist maps
Wj : B ( okj' 2j) --+ B ( okj+l? 2H^1 )
with
wj ( okj) = okj+i
such that for any f, E N the composition mapWj,£ ~ WjH-1 O•. ·OWj+l oWj : (B ( okj? 2j) '9kj) --+ ( B ( okHf' 2H£) '9kj+f)is an (into) (c,p)-approximate isometry.PROOF. We may assume that Cj is increasing as J increases and that
Co 2: 1. We shall inductively define the subsequence {(Mk., 1 9k 1 .) }. It
jEN
is sufficient to construct a sequence {wj}jEN such that Wj is a ( c;^1 2-j,J)-approximate isometry. In this case we can use Corollary 4.8 to see that
Wr,£ is a (Cr 2=~!;-^1 c;-^1 2-i, r )-approximate isometry. In fact, since Cj is
increasing in J, we have
r+£-1 oo oo
Cr L c;-12-i ::::; Cr L ci-12-i ::::; L 2-i = 21-r'
i=r i=r i=rwhich implies that Wr,£ is a (2^1 -r, r )-approximate isometry. We also have by
Proposition 4.4 that '1Fo(B(Ok 0 ,l)) c B (ok 1 , (1+Cc)^1 )
112
) c B(Ok 1 ,2)
since