94 3. Tensor ProductsIn the previous section we saw that for certain inclusions A c B, we
have inclusions A @max C C B @max C for every C. Our next result is in this
same spirit, but we should first recall some terminology.
Definition 3. 7 .5. If A is unital, an extension 0 -----> J -----> A ~ A/ J -----> 0 is
called locally split if for each finite-dimensional operator system E c A/ J
there exists a u.c.p. map O": E-----> A such that 1f o O" = idE.^19
Proposition 3. 7.6.^20 Assume that 0 -----> J -----> A ~ A/ J -----> 0 is locally
split. Then for every B the sequence
0-----> J Q9 B-----> A Q9 B-----> (A/ J) Q9 B-----> 0
is exact.Proof. We know that
A@B
J Q9 B ~ (A/ J) @a Bfor some C*-norm and our job is to show that II· Ila is the spatial norm. By
Takesaki's Theorem (Theorem 3.4.8) it suffices to show that if y E (A/ J)GB,
then
llYlla '.S llYllmin·
Since y E (A/ J) 8 B is a finite sum of elementary tensors, we can find
a finite-dimensional operator system X C A/ J such that y E X 8 B C
(A/ J) 8 B. By assumption, we can find a u.c.p. map e: X-----> A which lifts
X and this induces a u.c.p. (hence contractive) map
e Q9 idB: X Q9 B-----> A Q9 B.The remainder of the proof is contained in the following diagram:
(A/J) Q9 Bisometric r inclusion
X Q9 B ~ A Q9 B -----+ 1~~ ~ (A/ J) @a B.
Indeed, both maps on the bottom are contractions and since e was a lifting,
it follows that the element y E X 8 B C X Q9 B gets mapped to the element
YE X 8 BC (A/ J) @a B. Thus llYlla :S llYllmin as desired. D
Now let us reverse the roles and ask if some property of B will ensure
that 0 -----> J Q9 B -----> A Q9 B -----> (A/ J) Q9 B -----> 0 is exact for all choices of A
and ideals J <I A. We'll need a lemma.
(^19) The nonunital definition replaces operator systems with operator spaces and u.c.p. maps
with c.c. maps.
(^20) This is the easy half of the Effros-Haagerup lifting theorem; see Theorem C.4.