LECTURE 3. THE WEINSTEIN CONJECTURE IN THE OVERTWISTED CASE 77Now we have0 = dd I -
7H(T, a(T)) t =O = DH(0,0)(1, a'(O)) = D8J(u 0 )a'(O)
which implies a'(O) = 0, henceDu(O,z)(u,(3) = ((3 + uho(z ),uko(z)) =/. (0,0) for u ,(3 =f:. 0 , z E 8D.
Since u(O, z ) = (z, 0) we infer by the previous discussion that u is an embedding
for c:' sufficiently small.
Hence we have proved the following:Proposition 3.11. Under the assumptions described before, i.e. k = 0, there exists
a smooth embedding u: (-c:,c:) x D---+ C^2 such that with u(T)(z) = u(T,z) we have
u(T)(z ) E F for all z E 8D,BJU(T) = 0,
u(O)(z ) = (z , 0).
In the following we will study the uniqueness properties of this map. It turns
out that the map is unique up to some trivial modifications. Define the following
three lines on F = 8 D x JR:
£1 := {1} x JR,£2 := {i} x JR,£3 := {-i} x R
Let u be as described in the previous theorem. There exists for given T a unique
biholomorphic selfmap of the disk D , say u 7 , such that W 7 = u(T, *) o u 7 satisfies
Wr(l) E £1, Wr(i) E £2, Wr(-i) E £3.We would like to show that u 7 (z ) depends smoothly on T. Consider the map
f : ( -c:, c:) x D ---+ C
(T, z)---+ pr 1 (u(T, z )).Figure 10. This figure shows the one-dime nsiona l family of mutually disjoint
embedded disks guaranteed by Proposition 3. 11.