10.3. Quasidiagonal C* -algebras 307Proof. Let p: A -+ M(I) be the natural extension of the inclusion I ~
M(I) ([198, 2.2.14]). Then the map pE97r: A-+ M(I) E9B is injective. The
previous proposition (plus the trivial fact that direct sums of QD C* -algebras
are QD) now implies quasidiagonality. DThe proof shows that M(I) is QD whenever I has a separating family
of unital QD quotients. Hence the proposition above remains true for ideals
of the form I= J@ B where J is RFD and Bis unital and QD. We still
lack a description of those algebras whose multiplier algebras are QD.
Another instance where quasidiagonality passes to extensions is when
the extension is quasidiagonal. Confusing, yes, but not a tautology.Definition 10.3.3. Let 0 -+ I -+ A ~ B -+ 0 be a short exact sequence.
We call this a quasidiagonal extension if I has a quasicentral approximate
unit consisting of projections.It is important to note that in general an extension being quasidiagonal
has nothing to do with whether or not the middle algebra A is QD - it is
simply a statement about projections.Proposition 10.3.4 (Exercise 7.1.6). Let 0 -+ I -+ A ~ B -+ 0 be a
quasidiagonal extension where both I and B are QD. Then A is QD.Proof. Let {Pn} CI be an approximate unit of projections which is quasi-
central in A. Consider the c.c.p. maps <fJn: A-+ IE9B, <fJn(x) = PnXPnE91f(x).
Evidently these maps are asymptotically multiplicative, so we must check
that they are asymptotically isometric.
Let P EI** CA** be the (weak) limit of the Pn's. Then P is central in
A** and yields a decomposition A** = I** E9 B**. Hence for each x E A we
have llxll = max{llPxPll, 11(1-P)x(l-P)ll}. But 117r(x)ll = 11(1-P)x(l-P)ll
and llPxPll :::; liminfn llPnXPnll since PnXPn -+ PxP in the strong operator
topology. The other inequality is obvious. DWhen all algebras in a sequence are nuclear and satisfy the UCT, K-
theory can help determine quasidiagonality. See [31] for some partial results.Quotients. Since C*(JF 00 ) is QD (even RFD - Theorem 7.4.1), it is clear
that quasidiagonality need not pass to quotients. There is a simple sufficient
condition, however.
Proposition 10.3.5 (Exercise 7.1.5). Let 0-+ I-+ A~ A/ I-+ 0 be locally
split and short exact. If A is QD and the extension is quasidiagonal, then
A/I is QD.