40 2. SPECIAL AND LIMIT SOLUTIONS
anything we have presented thus far, but illustrate many important ideas
that will be developed further in the chapters to come.
The main results of [6] may be summarized as follows.
THEOREM 2.15. If n ?: 2, there exists an open subset of the family of
SO ( n + 1 )-invariant metrics on sn+^1 such that any solution of the Ricci fiow
starting at a metric in this set will develop a neckpinch at some time T < oo.
The singularity is Type-I (rapidly-forming). Any sequence of parabolic dila-
tions formed at the developing singularity converges to a shrinking cylinder
soliton (2.41) uniformly in any ball of radius o ( J-(T - t) log(T - t)) cen-
tered at the neck.Any SO(n + 1)-invariant metric on 5n+l can be written as
(2.42) g = <p^2 d X^2 +^0 '// /,2 gcanon the set ( -1, 1) x sn, which may be identified in the natural way with
the sphere sn+l with its north and south poles removed. The quantity
?j;(x, t) > 0 may thus be regarded as the 'radius' of the totally geodesic
hypersurface { x} x sn at time t. It is natural to write geometric quantities
related to g in terms of the distances ( x) = fox <p ( x) dxfrom the equator. Then writing gs = ~ gx and ds = cp dx, one can write the
metric (2.42) in the nicer form of a warped product
(2.43) g = ds^2 + 1/;^2 gcan ·
Armed with this notation, one can make a precise statement about the
asymptotics of the developing singularity.THEOREM 2.16. Lets (t) denote the location of the smallest neck. Then
there are constants 5 > 0 and C < oo such that for t sufficiently close to T
one has the estimate(2.44)^1 + o(l) <. ?j;(x, t) <^1 + C (s - s)^2
- J2(n - l)(T - t) - -(T - t) log(T - t)
in the inner layer Is -sl :<:::; 2)-(T - t) log(T - t), and the estimate
1/;(x,t) C s-s
1s-s
(2
.4
5
) )T - t :<:::; J -(T - t) log(T - t) og J-(T....., t) log(T - t)
in the intermediate layer 2J-(T - t) log(T - t) :<:::; s - s ::=:; (T - t)(l-o)/^2.
The estimates in the theorem are exactly those one gets when one writes
the evolution equation (2.47) satisfied by ?/; with respect to the self-similar
space coordinate a= (s - s) /)T - t and time coordinate T = -log (T - t)
and derives formal matched asymptotics. For this reason, it is expected that
these estimates are sharp.