396 14. Weakly Exact von Neumann AlgebrasRemark 14.JL.7. Since there exists a discrete group which is not exact [71]
(see also Remark 5.5.10), there exists a von Neumann algebra which is not
weakly exact. However, it would be very nice to have simpler examples; a
prime candidate is Rw.A large number of von Neumann algebras have the W*OAP (see Sec-
tion 12.4). We now show that the W*OAP implies weak exactness. Denote
by CB(M) the Banach space of all completely bounded maps on M and
defineCB(M) =the closed linear span of {wa,f: a EM, f EM} C CB(M)*,
where Wa,J(lf>) = f(tp(a)) for <p E CB(M). For a E M 0 IIB(£^2 ) and f E
(M 0 IIB(£^2 ))*, we define Wa,f E CB(M)* with llwa,111 S': llall llfll by^2Wa,J(lf>) = f(<p ® idJIB(£2)(a)).
The proof of the following proposition is very similar to that of Lemmas D.7-
D.9, and hence it is omitted.Proposition 14.1.8. For a von Neumann algebra M, the following are
true.
(1) One has Wa,f E CB(M)* for every a E M 0 IIB(£^2 ) and f E (M 0
IIB(£^2 ) k
(2) There is a canonical isometric isomorphism CB(M) = (CB(M)*)*.
(3) Every element in CB(M)* is of the form Wa,f with a E M ® JK(£^2 )
and f E (M 0 IIB(£^2 ))*.
In particular, the stable point-ultraweak topology (Definition 12.4.1) coin-
cides with the O"(CB(M), CB(M)*)-topology.Corollary 14.1.9. Let B be a C* -algebra, x E M ® B and f E (M ® B)*.
If f( · ® b) E M* for every b E B, then Wx,f E CB(M)*, where Wx,J(lf>) =
f((<p ® idB)(x)) for all <p E CB(M).Proof. Let (xn) be a sequence in M 8 B which converges to x. It is clear
that the sequence (wxn,J) is in CB(M)* and converges to Wx,f· D
Proposition 14.1.10. A von Neumann algebra M with the WOAP is
weakly exact.
(^2) The map cp 181 idJIB(£2) is defined as the point-ultraweak limit of cp Q9 Wn, where Wn is the
compression onto JIB(£;). It is uniquely determined by the identity (idM Q9 g) o (cp Q9 id1E(£2)) =
cp o (idM Q9 g) for all g E JIB(£^2 )*.