38 28. SPECIAL ANCIENT SOLUTIONSSTEP 5. ODI comparison gives a lower bound for Smin· Recall that in general
if we have a solution to the ODE(28.16) ds =A (s^2 - B^2 )
dton [o:, to] withs (to) =so, where A , B > 0 and so < 0, then
(28.17)Ce-2BA(to-t) + 1
s (t) = -B Ce-2BA(to-t) - 1'where C = ~~~~ provided B "I--so. If B =-so, thens (t) =so.
Take(28.18)2A=~ -c:,
B = _1_ const
JA2V€p2'
and s 0 = Smin (to) < 0. It follows from (28.15) and the ODI comparison theoremthat we have Smin (t) ::; s (t) and s (t) > -oo fort E [o:, to] (the latter inequality is
since Smin (t) > -oo).
CASE 1. If s 0 2 - B , then we have the estimate
(28.19) R(O, to) 2 Smin (to) 2 -B.
CASE 2. If so < -B, t hen C > 1 and since s (t) > -oo fort E [o:, to], we h ave
that the denominator of S ( o:) satisfiesso thatSo - B e-2BA(t 0 -a) _ l > O
s 0 +B '
e2BA(to-a) + 1
(28.20) R ( 0 , to) 2 so > -B e 2 BA(to-a) _
1
·Since (28.19) is a stronger estimate t han (28.20), we conclude that (28.20) holds
in either case for any p 2 r 0 + ~(n - l)r 01 (to - o:). Note that, from (28.18), A
depends only on n and c:, whereas B depends only on n, c:, and p. Further note
that although r 0 is used to define i' and hence S, in the end, we shall obtain a lower
estimate for R independent of r 0.
STEP 6. Sharp lower bound for R. Now fix c: E (0 , ~) and let p---+ oo. We then
h ave B ---+ 0. Since by l'Hopital's rulee2BA(to-a) + (^1 1)
B--to limB------e2BA(to-a) _ 1
A (to - o:)
and since (28.20) holds for all p , we conclude that
1
R ( 0, to) 2 - ( 2 ) (.
n -c: to - o:)
Finally, taking c;---+ 0, we obtain
n
R ( 0 , to) 2 - 2 ( t )
0 - o:
Since our only assumption on ( 0 , to) E M x ( o:, w) was R ( 0 , t 0 ) < 0, this estimate
holds everywh ere. D
By taking o:---+ -oo in Theorem 28.1, we obtain the following, which does not
assume a curvature bound.