- DIFFERENTIAL HARNACK ESTIMATES OF LYH TYPE 145
COROLLARY 5.56. Q satisfies the evolutionary inequality
a
(5.38) at Q 2 b.Q + 2 (VQ, \7 L) + Q^2 + rQ.PROOF. Use (5.37) and the standard fact that n ISl^2 2 (tr 9 8)^2 for anysymmetric 2-tensor Son an n-dimensional Riemannian manifold. D
To obtain an estimate for Q from the maximum principle, we need to
consider the ODE corresponding to (5.38), namely
d 2
dtq = q + rq.The solution with initial data q(O) = q 0 < -r < 0 is
Crert
Get - 1'where C ~ q 0 / (q 0 + r) > I. Therefore, applying the maximum principle to
equation (5.38) implies the following.PROPOSITION 5.57. On a complete solution of the normalized Ricci flow
with bounded positive scalar curvature, there exists a constant C > 1 de-
pending only on go such that
a Crert
at logR- IVlogRl2= Q 2 - Cert_ 1.
This estimate for Q is known as a differential Harnack inequality.
Integrating it along paths in space-time yields a classical Harnack inequality:
a lower bound for the curvature at some point and time (x2, t2) in terms
of the curvature at some (x1, ti), where 0 :::; ti < t2. In particular, let
"(: [t 1 , t 2 ] --+ M^2 be a C^1 - path joining x1 and x2. Then by the fundamental
theorem of calculus,
R (x2, t2) 1t^2 d
log ( ) = -d (log R) b (t), t) dtRx1,t1 ti t
= l
1t2
( :t (log R) b (t), t) + (\!log R, ~;)) dtrt2 ( Crert Id"( I)
2 lti IV log Rl2- Cert_ 1 - IV log RI · dt dt
> - - - - dt
1t2 ( Crert 1 Id"( 12
)- t 1 Cert - 1 4 dt
(5.39) = --11t2 Id __:!_^12 dt - log (Cert^2 - 1) +log (Gerti - 1).
4 t1 dt
Now define