424 16. Herrera's Approximation ProblemTo ease notation, let B = 7r(A). We have a short exact sequence
0 ---+ lK ( 1i) ---+ A + lK( H) ---+ B ---+ O
and by the previous corollary we can find a u.c.p. map <I>: B ---+ A+ lK(H)
such that 7r o <I> = idB. Since A C JE(H) is a quasidiagonal set, we can find
increasing finite-rank projections Pn ~ Pn+l which tend to the identity and
asymptotically commute with A+ lK(H). To show that Bis QD, it suffices
to find asymptotically multiplicative, asymptotically isometric contractive
c.p. maps from B into A+ lK(H).
Let Prt" = 1 - Pn and consider the (nonunital) c.p. (isometric) maps
<I>n(b) = P;t-<I>(b)P;t-.
Note that <I>n(b) E A+ lK(1i) for all n and b E B, since Pn E A+ lK(H).
Thus the proof will be complete once we understand whyfor all b, c E B. But this follows from the fact that { Pn} is an approximate
unit for lK(H) and quasicentral in A+ lK(H). DProposition 16.2.4. With the same assumptions as the previous proposi-
tion, for each finite set J C A and E > 0 there exists a finite-dimensional
C* -subalgebra D C Q ( H) such that 7r ( J) C^6 D - i.e., for each a E J there
exists d ED such that 117r(a) - dll < c:.Proof. Let B = 7r(A) and <I>n(b) = Prt"<I>(b)Prt" as in ·the proof of the last
proposition. Since each <I>n is a splitting, we may regard <I>n as a faithful
*-homomorphism modulo the compacts (as in Theorem 1.7.6). To make <I>n
unital, we regard it as taking values in JE(Prt"H) (rather than JE(H)). Keep
in mind that Prt"H has finite codimension in 1i and hence the Calkin algebra
can't see the difference between the two.
Let <T: B ---+ JE(JC) be a faithful essential representation. Since B is exact
and QD it follows from Dadarlat's approximation theorem (Theorem 7.5.7)
that we can find finite-dimensional subalgebras in IB(JC) which approximate
prescribed finite subsets of <T(B) arbitrarily well. Since the maps <I>n: B ---+
IB(Prt"H) are asymptotically multiplicative faithful *-homomorphisms mod-
ulo the compacts, we can, by Theorem 1. 7.6, find unitary operators Un: JC ---+
Prt"H such thatfor all b E B. So, if a finite subset of B and c: > 0 are given, we can
find finite-dimensional approximations inside Q(H) by. first approximating
in the representation <T: B ---+ IB(JC), then conjugating over to ~n: B ---+
IB(Prt"H) (for a sufficiently large n) and, finally, passing to Q(Prt"H). Since