- A POINT PICKING METHOD is5
We call the above properties the 'requirements of (x 0 , to)'. Essentially, (22.5)
says that we have a good relative curvature bound in a parabolic cylinder
centered at (xo, to).
Now we give a proof of the above claim. If the point (xo, t 0 ) itself
satisfies the requirements of (xo, to), then we are done. Otherwise, thereexists (xi, ti) E P(xo, to, (cQ)-i/^2 , -(cQ)-i) such that
Qi~ I Rm J(xi, ti) > 2Q,
so that in particular, (xi, ti) is an a-large curvature point.^2 Note that by
(22.4), we have Qi > ~~ andti> - to - HQ-i >~to> - 4 - 8 ~T.
Now if (xi, ti) satisfies the requirements of (xo, to), then we are done.Otherwise, we can find (x2, t2) E P(xi, ti, (cQi)-^1!^2 , -(cQi)-i) such that
Q2 ~I Rm J(x2, t2) > 2Qi > 2^2 Q.
Note that
5Tt2 2 ti - (cQi)-i 2 ti - HQ]"i 2 to - HQ-i - HQ-i2-i 2
16
.
Moreover, we have the fact that (x2, t2) is an a-large curvature point.^3
If (x 2 , t 2 ) satisfies the requirements of (xo, to), then we are done. Oth-
erwise we repeat the process. Notice that this process must stop at somepoint since SUPMx[O,T] I Rm J(x, t) < oo. The last point (xj, tj) satisfies the
requirements of (x 0 , to) with to 2 to - 2HQ-i 2 '.f-'.?[ = '.?[ (more precisely,
tj 2 '.f (1+2-j)).
EXERCISE 22.2. Fill in the details of the above argument to confirm the
existence of the desired point (xo, to).In conclusion, we have proved the following general point picking result.LEMMA 22.3 (Large curvature point with local curvature control). Given
a E (0, oo) and c E (0, 1), if there exists a point (xo, to) EM x [T /2, T] withI Rm J(xo,to) >max { ~, :E}'
then there exists a point ( xo, to) E M x [T / 4, T] withQ~ A JRmJ(xo,to) A >max {a to'Tc 8 }
(^2) Indeed, JRmJ(x 1 ,t 1 ) > 2JRmJ(xo,to) > ;~ ~ fi:-·
(^3) We have
2cx ex
J Rm J(x2, t2) > 2J Rm J(x1, t1) > t; ~ "t;
(since t2 ~ t1 - HQ-^1 r^1 = t1 - ft ~ ~ti).