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In abstract algebra, a unital map on a C*-algebra is a map ${\displaystyle \phi }$ which preserves the identity element:

${\displaystyle \phi (I)=I.}$

This condition appears often in the context of completely positive maps, especially when they represent quantum operations.

If ${\displaystyle \phi }$ is completely positive, it can always be represented as

${\displaystyle \phi (\rho )=\sum _{i}E_{i}\rho E_{i}^{\dagger }.}$

(The ${\displaystyle E_{i}}$ are the Kraus operators associated with ${\displaystyle \phi }$). In this case, the unital condition can be expressed as

${\displaystyle \sum _{i}E_{i}E_{i}^{\dagger }=I.}$

References

• Paulsen, Vern I. (2002). Completely bounded maps and operator algebras. Cambridge: Cambridge University Press. ISBN 0-511-06103-X. OCLC 228110971.

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