Given a cycle of the form $(\pi,H,0)$ in $KK^G(A,A)$, when is it equivalent to the identity cycle $1_A=(i_A,A,0)$?
The operator $T=0$, and $\pi:A \rightarrow L(H)$ may be injective.
Any criterions how to decide this?
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$\begingroup$ I know $l^2(G)$ is a $C_0(G)$-$C_0(G)$ bi-module but how to make it a Hilbert $C_0(G)$-module? What is the inner product? $\endgroup$– Zhaoting WeiCommented Apr 28, 2015 at 16:56
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$\begingroup$ I have edited it. $\endgroup$– hansCommented Apr 28, 2015 at 17:03
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