14 17. ENTROPY, μ-INVARIANT, AND FINITE TIME SINGULARITIESSesum [169] considers immortal solutions g (t) to the 'Ricci flow with
cosmological. constant l'(17.38)with(17.39)8
-g = -2Rc+g
at
IRml :::; C and diam :::; Con M x [O, oo), where C < oo. Making the change of time variable t (i) ~
- ln (1 - i), i.e., i (t) ~ 1-e-t, and rescaling the solution by defining g (i) ~
( 1 - i) g ( t (£)) , we have
-g^8 ~ = -2Rc ---
ai
on M x [O, 1). The conditions (17.39) correspond to the Type I conditionI Rm I ( i) :::; --2___,_ 1-t
and the diameter estimate(17.40)
This implies(17.41)diam ----:::; Cv ~ 1 - t.
For if the (Ricci) curvature were uniformly bounded, then the diameter could
not tend to zero as i --+ 1.^2 Moreover, we then also havemax !Rini (i) > (
1
M -8 1-t A)
(see Lemma 8.19 in Volume One and Lemma 8.7 in [45]).
In turn, if one does a Type I rescaling by defining9i (t) = 1 ~ -t/ (ii+ (1 - ii) t)
for some ii--+ 1, then one obtains uniform bounds for IRmil (t) and ~i (t)
for t:::; 0.
PROBLEM 17.17. Show that if (Mn,g(t)), t E [0,T), is a finite time
singular solution forming a singularity model on a closed manifold (which
then must be diffeomorphic to M), then g (t) is Type I.
(^2) This implies
m,tt Jifr.;!J (ti) ---+ oo for some ti ---+ 1,
from which (17.41) follows.