- LOCALIZED NO LOCAL COLLAPSING THEOREM 69
5.1. Statement of the main theorem.
Recall that, as compared to Definition 19.1 below, there is another ver-
sion of r;;-noncollapsing for solutions of the Ricci fl.ow which uses a stronger
assumption (see also Definition 8.23 in Part I).DEFINITION 18.34 (Weakly r;;-noncollapsed). Let (Mn, g (t)) be a com-
plete solution to the Ricci fl.ow with bounded curvature for each time t E
[O,T). Given r;;,p E (O,oo), we say that g(t) is weakly r;;-noncollapsed
at (xo, to) E M x [O, T) below the scale p if for any r E (0, p] satisfying
IRml :::; r-^2 in Bg(to)(xo, r) x [to - r^2 , to], we haveVolg(to) Bg(to)(xo,r) 2: r;;rn.REMARK 18.35. Since the function'11 (r) ~ r^2 _ max 1Rm 9 (t)(x)I
Bg(to) (xo,r) x [to-r^2 ,to]is nondecreasing and since limr-+O '11 ( r) = 0, there exists a maximum radius
r E (0, oo] such that '11 (r) :::; 1 for r E (0, r). We .have that g(t) is weakly
r;;-noncollapsed at (xo, to) below the scale p if and only ifVolg(to) Bg(to)(xo,r) 2: r;;rn for all r E (O,min{p,r}].The main result of this section is the following, which is Theorem 8.2 in
Perelman [152].THEOREM 18.36 (Localized no local collapsing). For any n 2: 2 andA > 0 there exists r;;(n, A) > 0 satisfying the following property. For any
complete solution g(t), t E [O, rg], of the Ricci flow on a manifold Mn withbounded curvature and any xo E M, if
JRml:::; r 02 in B 9 (o)(xo,ro) x [o,r5J
and ifVolg(o)Bg(o)(xo, ro) 2: A-^1 rg, then g(t) is weakly r;; (n, A)-noncollapsed
below the scale ro at any point in Bg(r5)(xo,Aro) x {r5}.
REMARK 18.37. Given a nonfiat complete solution (Mn, g (t)), t E [O, T],
and xo E M, let r 0 :::; VT be the maximum radius such that
r5 _ max 1Rm 9 (t)(x)I:::; 1.
B 9 (o) (xo,ro) x [o,r6]Define
rn
A (ro) ~0
Vol ( )"
9 (o) B 9 (o) xo, ro
In this respect the theorem says that for any ro E (O; fo] the solution g(t) is
weakly r;; (n, A (ro))-noncollapsed below the scale ro at any point in the ball
Bg(r5)(xo,A(ro)ro) x {r5}.