1547845447-The_Ricci_Flow_-_Techniques_and_Applications_-_Part_IV__Chow_

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  1. ANCIENT SOLUTIONS WITH POSITIVE CURVATURE 65


By Lemma 6.35(2) in Part I (note that,\ (g (t)) > 0 since R (g (t)) > 0), we conclude


that g (t) is a gradient shrinker and, by (2), that g (t) must have constant sectional
curvature. 0
PROBLEM 28.57. Can one remove the n;-noncollapsed condition in Theorem
28 .56?
4.2. Ancient 3 -dimensional solutions with pinched Ricci curvatures.

In the presence of positive curvature, instead of assuming the T yp e I condition
as in the previous subsection, we may assume a curvature pinching condition. The
following result is due to Brendle, Huisken , and Sinestrari [34] (they also prove a
higher-dimensional analogue). This result is related to Hamilton's "necklike points
theorem" (see Theorem 9.19 in Volume One).
THEOREM 28.58 (Compact 3-dimensional ancient solutions with pinched Ricci

curvatures). If (M^3 ,g(t)) , t E (-oo,O], is an ancient solution of the Ricci flow


on a closed 3-manifold with Re ;::: cRg, where c > 0 is a constant and the scalar


curvature R is positive, then g (t) has constant positive sectional curvature.
PROOF. Let ,\ ;::: μ ;::: v denote the eigenvalues of Rm (equal to twice the
0
principal sectional curvatures) and let Rm denote the trace-free part of Rm. Given

E: > 0, define


(^0 2 2 2)


G = 1Rml2 = (μ - v) + (,\ - v) + (,\ - μ) > 0


(28.74). R 2 - € 3R 2 -€ -.

By the formula on p. 273 of Volume One with / = 0, we obtain


(28.75)

a 2(1-c)
at G:::; ~G + R (\JG, \l R) + 2J,

where


(28. 76)^1 (

0
J ~ R3-€ clRml2 IRml^2 - p )

and
(28.77)
On the other hand, the hypothesis Re ;::: cRg yields
μ+v
μ;:::-
2


  • ;:::cR;:::clRml.


Thus


(28.78) P;::: μ^2 (,\ - v)^2 ;::: c^2 IRml^2 1Rml°^2 ,
2 0
using(,\ - v) ;::: 1Rml^2.

2
Now take E: = T· Then, by (28.78), we have

(28. 79)

0 2

J < -E: 1Rml


2

IRml < -E:Gl+~



  • R^2 -€ R - '


('R~l

2
r (which is equivalent to 11*11 :::; ('~^1 ) \ There-

0?
W h ere. we use d IRml-R2-e :::;


fore


(28.80) .!!_G < ~G +


(^2) (l -c) (\JG \l R) - 2cGi+~.
at - R '

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