142 3. THE COMPACTNESS THEOREM FOR RICCI FLOWon M 00 x (a,w) and Volg 00 (o)Bg 00 (o)(0 00 ,ro) 2:: vo. Furthermore Ooo is a
singular point in M 00 •Idea of the proofs. Theorem 3.25 can be proved from Theorem
3.24 in the same way as we have proved Theorem 3.10 from Theorem
3.9. On the other hand, Theorem 3.24 can be proved with some modifi-
cation of the proof of Theorem 3.9 to handle the singularity (see [257]).
Note that the Bishop-Gromov volume comparison theorem holds for orb-
ifolds. Fix r > O; for any k and qk E Mk with dgk(o)(Ok,qk) Sr, we
have Volgk(O) Bgk(o)(qk,ro) 2:: v 1 , where v1 is a positive constant independent
of k but depending on v 0 , r, r 0 , n, Co. This implies that there exists rl in-
dependent of k such that Bgk(o) ( qk, rl) has the orbifold topological modelBn /G (qk), where Bn is the unit ball in Euclidean space centered at the
origin and G (qk) C 0 (n) is a discrete subgroup with rank IG (qk)I bounded
independent of k. The existence of r 1 implies that we can modify the choice of.\a in Definition 4.26 and Proposition 4.22 so that the ball Bk ~ B ( xk', .\a /2)
has the orbifold topological model Bn /G (xk). The key observation in the
proof of Theorem 3.24 is that we can choose a subsequence of orbifolds so
that the groups G (xk') and their actions on Bn are independent of k. We
can then use the balls Bk, Bk, Bk to build the limit orbifold.4. Applications of Hamilton's compactness theorem
In this section we discuss some applications of Theorems 3.10 and 3.16.
We will see more applications of the compactness theorems later in this
volume.4.1. Singularity models. Theorem 3.16 may be applied to study sin-
gular, nonsingular, and ancient solutions of the Ricci flow. For example,let (Mn,g(t)), t E [O,T), where TE (O,oo], be a complete solution to
the Ricci fl.ow. Given a sequence of points and times {(xk, tk)}kEN, let
Kk ~ IRm (xb tk)I. We say that the sequence {(xk, tk)} satisfies an in-jectivity :radius estimate if there exists lo > 0 independent of k such
that injg(tk) (xk) 2:: loK;,^112. Given a complete solution of the Ricci flow, we
can obtain a local limit of dilations provided we have an injectivity radius
estimate and a local bound on the curvatures after dilations.COROLLARY 3.26 (Existence of singularity models). Let (Mn, g ( t)) , t E
(a, w), be a complete solution to the Ricci flow. Given a sequence of pointsand times {(xk, tk)}kEN, let Kk ~ IRm (xk, tk)I > 0 and
9k (t) ~ Kkg (tk + K-;:^1 t).
Suppose that the sequence { ( Xk, tk)} satisfies an injectivity radius estimate,i.e., injg(tk) (xk) 2:: loK"k^112 , for some lo > 0, and suppose that ak, Wk, a 00 , w 00
2:: 0 with ak ---+ a 00 > 0, Wk ---+ w 00 , and [tk - ~%, tk + 'k% J C (a, w) are such