- THE LINEARIZATION OF RICCI 71
Since [U, V] = 0, we have
d d rb 1/2dt Lt( "It) = dt la g (U, U) du
= ~lb (U U)-1/ 2 ag (U U) d(^2) a g ' at ' u
- 1b g (U, U)-^112 g (U, \luV) du
i rb ag rb
= 2.la at (S,S) ds+ la (S,\lsV) ds
= ~ 1b h(S,S) ds + ( (S, V)I~ -1b (\lsS, V) ds).
D2. The linearization of the Ricci tensor and its principal symbol
2.1. The symbol of a nonlinear differential operator. Let V and
W be vector bundles over Mn, and let
L : C^00 (V) ---> C^00 (W)be a linear differential operator of order k, written as
L (V) = L Laaav,
lal:Skwhere La E horn (V, W) is a bundle homomorphism (namely, a linear map
when restricted to each fiber) for each multi-index ex. If ( E C^00 (T* Mn),
then the total symbol of L in the direction ( is the bundle homomorphism
o-[L](() ~ L La(IIj(aJ).
laJ:Sk
Note that o-[L] (() is a linear map of degree at most kin(. The principal
symbol of L in the direction ( is the bundle homomorphism0-[L] (() ~ L La (IIj(aJ).
lal=k
The principal symbol of a differential operator L captures algebraically those
analytic properties of L that depend only on its highest derivatives. The
following basic property of the total symbol will be useful: if X is another
vector bundle over Mn and
M: C^00 (W) ---> C^00 (X)
is a linear differential operator of order £, then the symbol of M o L in the
direction ( is the bundle homomorphism