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Completely positive map

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In mathematics a positive map is a map between C*-algebras that sends positive elements to positive elements. A completely positive map is one which satisfies a stronger, more robust condition.

Definition

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Let and be C*-algebras. A linear map is called a positive map if maps positive elements to positive elements: .

Any linear map induces another map

in a natural way. If is identified with the C*-algebra of -matrices with entries in , then acts as

is called k-positive if is a positive map and completely positive if is k-positive for all k.

Properties

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  • Positive maps are monotone, i.e. for all self-adjoint elements .
  • Since for all self-adjoint elements , every positive map is automatically continuous with respect to the C*-norms and its operator norm equals . A similar statement with approximate units holds for non-unital algebras.
  • The set of positive functionals is the dual cone of the cone of positive elements of .

Examples

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  • Every *-homomorphism is completely positive.[1]
  • For every linear operator between Hilbert spaces, the map is completely positive.[2] Stinespring's theorem says that all completely positive maps are compositions of *-homomorphisms and these special maps.
  • Every positive functional (in particular every state) is automatically completely positive.
  • Given the algebras and of complex-valued continuous functions on compact Hausdorff spaces , every positive map is completely positive.
  • The transposition of matrices is a standard example of a positive map that fails to be 2-positive. Let T denote this map on . The following is a positive matrix in : The image of this matrix under is which is clearly not positive, having determinant −1. Moreover, the eigenvalues of this matrix are 1,1,1 and −1. (This matrix happens to be the Choi matrix of T, in fact.)
    Incidentally, a map Φ is said to be co-positive if the composition Φ T is positive. The transposition map itself is a co-positive map.

See also

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References

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  1. ^ K. R. Davidson: C*-Algebras by Example, American Mathematical Society (1996), ISBN 0-821-80599-1, Thm. IX.4.1
  2. ^ R.V. Kadison, J. R. Ringrose: Fundamentals of the Theory of Operator Algebras II, Academic Press (1983), ISBN 0-1239-3302-1, Sect. 11.5.21