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Let $A$ be a $C^*$-algebra with countable approximate unit. Let $\mathbb{K}$ denote the compact operators on a separable Hilbert space. Mingo and later Cuntz and Higson have shown that the unitary group in the multiplier algebra $M(A \otimes \mathbb{K})$ is contractible in the norm topology. It was then shown by Troitsky in a paper with the title

Geometry and Topology of operators on Hilbert $C^*$-modules

that $U(M(A \otimes \mathbb{K}))$ is also contractible, if it is equipped with the left strict topology, i.e. the topology generated by the semi-norms $\lVert xa \rVert$ for $x \in M(A \otimes \mathbb{K})$ and $a \in A \otimes \mathbb{K}$. Is the theorem still true, if we change from left strict to strict (which is the topology that includes the semi-norms $\lVert ax \rVert$)?

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  • $\begingroup$ Ah, I think that I can deduce this from exercise 2.M in Wegge-Olsen. Or does that fail? $\endgroup$ Mar 17, 2011 at 14:17

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I would post this as a comment but as it just happens I can't do that. I do think that the exercise that you mention proves strict contractibility. The same formula for the homotopy, $$ (u,t)\mapsto w_tuw_t^*+(1-w_tw_t^*), $$ is given in Proposition 12.2.2 of Blackadar's book on K-theory, although the statement only says that the unitary group of $M(A\otimes K)$ is path connected. This formula goes back to Dixmier and Douady's paper on fields of Hilbert spaces, applied to $B(H)$.

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