Extensions of C*-algebras

Abstract: Let $A$ be a separable amenable $C^*$-algebra and $B$ a non-unital and $\sigma$-unital simple $C^*$-algebra with continuous scale ($B$ need not be stable). We classify, up to unitary equivalence, all essential extensions of the form $0 \rightarrow B \rightarrow D \rightarrow A \rightarrow 0$ using KK theory. There are characterizations of when the relation of weak unitary equivalence is the same as the relation of unitary equivalence, and characterizations of when an extension is liftable (a.k.a.~trivial or split). In the case where $B$ is purely infinite, an essential extension $\rho : A \rightarrow M(B)/B$ is liftable if and only if $[\rho]=0$ in $KK(A, M(B)/B)$. When $B$ is stably finite, the extension $\rho$ is often not liftable when $[\rho]=0$ in $KK(A, M(B)/B).$ Finally, when $B$ additionally has tracial rank zero and when $A$ belongs to a sufficiently regular class of unital separable amenable $C^*$-algebras, we have a version of the Voiculescu noncommutative Weyl--von Neumann theorem: Suppose that $\Phi, \Psi: A \rightarrow M(B)$ are unital injective homomorphisms such that $\Phi(A) \cap B = \Psi(A) \cap B = { 0 }$ and $\tau \circ \Phi = \tau \circ \Psi$ for all $\tau \in T(B),$ {the tracial state space of $B.$} Then there exists a sequence ${ u_n }$ of unitaries in $M(B)$ such that (i) $u_n \Phi(a) u_n^* - \Psi(a) \in B$ for all $a \in A$ and $n \geq 1$, (ii) $| u_n \Phi(a) u_n^* - \Psi(a) | \rightarrow 0$ as $n \rightarrow \infty$ for all $a \in A$.