- LOCAL PINCHING ESTIMATES 191
0 0
where as in (6.34), Rm and Re are the trace-free parts of the Riemann
curvature operator and Ricci tensor, respectively. Once again, the left-hand
side is scale invariant, while the right-hand side tends to 0 uniformly if
infxEM3 R (x , t) ----+ oo.
We shall give two proofs of the theorem: the first uses the maximum
principle for systems and is in the spirit of [59], whereas the second is closer
in spirit to the original argument of [58].FIRST PROOF OF THEOREM 6.30. Because
d
dt (). - v) = ( ,\ - v) ( ,\ - μ + v) 'we may assume that ,\(M) > v(M) for M(t) E (/\^2 T*M^3 @s/\^2 T*M^3 )x.
We calculateandHenced- log ( ,\ - v) = ,\ - μ + v
dt
d v2 + μ2
-d log ( v + μ) = ,\ +
t v+μdd log [ ,\ - ~ -J l = ( ,\ - μ + v) - ( 1 - c5) (,\ + v2 + μ2)
t (v+μ) v+μ
v2 + μ2
= c5,\ + (v - μ) - (1 - c5) --
v + μ
1
:::; c5,\ -
2(1 - c5) (v + μ),
where we used v :::; μand v^2 + μ^2 :2: ~ (v + μ)^2 to obtain the last inequality.
By Lemma 6.28, the right-hand side is nonpositive for c5 chosen small enough.
Now define the convex set
JC= { lP': [,\(JP') - v (JP')] - C [v (JP') + μ (lP')]^1 -^0 :::; O}and continue as before. DSECOND PROOF OF THEOREM 6 .30. By Lemma 6.34 (below), the func-
ti on 0f
= IRml2
. R2-E.
satisfies the evolution equation
(6.38) ~~ :::; .6.f + 2 (1 - c) (V' f , Y' (log R)) + 2Q.
Here
Q ::!;= R;-E. ( c 1Rml^2 I Rml^2 - P) ,