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In [[quantum mechanics]], especially [[quantum information]], '''purification''' refers to the fact that every [[Mixed state (physics)|mixed state]] acting on finite dimensional Hilbert spaces can be viewed as the [[partial trace|reduced state]] of some pure state.  
 
In purely linear algebraic terms, it can be viewed as a statement about [[positive-semidefinite matrix|positive-semidefinite matrices]].
 
== Statement ==
 
Let ρ be a density matrix acting on a Hilbert space <math>H_A</math> of finite dimension ''n''. Then there exist a Hilbert space <math>H_B</math> and a pure state <math>| \psi \rangle \in H_A \otimes H_B</math> such that the partial trace of <math>| \psi \rangle \langle \psi |</math> with respect to <math>H_B</math>
 
:<math>\operatorname{tr_B} \left( | \psi \rangle \langle \psi | \right )= \rho.</math>
 
We say that <math>| \psi \rangle</math> is the purification of <math>\rho</math>.
 
=== Proof ===
 
A density matrix is by definition positive semidefinite. So ρ can be [[Diagonalizable matrix|diagonalized]] and written as <math>\rho = \sum_{i =1} ^n p_i | i \rangle \langle i |</math> for some basis <math>\{ | i \rangle \}</math>. Let <math>H_B</math> be another copy of the  ''n''-dimensional Hilbert space with any orthonormal basis <math>\{ | i' \rangle \}</math>. Define <math>| \psi \rangle \in H_A \otimes H_B</math> by
 
:<math>| \psi \rangle = \sum_{i} \sqrt{p_i} |i \rangle \otimes | i' \rangle.</math>
 
Direct calculation gives
 
:<math>
\operatorname{tr_B} \left( | \psi \rangle \langle \psi | \right )=
\operatorname{tr_B} \left( \sum_{i, j} \sqrt{p_ip_j} |i \rangle \langle j | \otimes | i' \rangle \langle j'| \right ) = \sum_{i,j} \delta_{i,j} \sqrt{p_i p_j}| i \rangle \langle j | = \rho.
</math>
 
This proves the claim.
 
==== Note ====
 
* The vectorial pure state <math>| \psi \rangle</math> is in the form specified by the [[Schmidt decomposition]].
 
* Since square root decompositions of a positive semidefinite matrix are not unique, neither are purifications.
 
* In linear algebraic terms, a square matrix is positive semidefinite if and only if it can be purified in the above sense. The ''if'' part of the implication follows immediately from the fact that the [[partial trace]] is a [[Choi's theorem on completely positive maps|positive map]].
 
== An application: Stinespring's theorem ==
{{Expand section|date=June 2008}}
By combining [[Choi's theorem on completely positive maps]] and purification of a mixed state, we can recover the [[Stinespring factorization theorem|Stinespring dilation theorem]] for the finite dimensional case.
 
{{DEFAULTSORT:Purification Of Quantum State}}
[[Category:Linear algebra]]
[[Category:Quantum information science]]

Revision as of 16:43, 14 August 2013

In quantum mechanics, especially quantum information, purification refers to the fact that every mixed state acting on finite dimensional Hilbert spaces can be viewed as the reduced state of some pure state.

In purely linear algebraic terms, it can be viewed as a statement about positive-semidefinite matrices.

Statement

Let ρ be a density matrix acting on a Hilbert space HA of finite dimension n. Then there exist a Hilbert space HB and a pure state |ψHAHB such that the partial trace of |ψψ| with respect to HB

trB(|ψψ|)=ρ.

We say that |ψ is the purification of ρ.

Proof

A density matrix is by definition positive semidefinite. So ρ can be diagonalized and written as ρ=i=1npi|ii| for some basis {|i}. Let HB be another copy of the n-dimensional Hilbert space with any orthonormal basis {|i}. Define |ψHAHB by

|ψ=ipi|i|i.

Direct calculation gives

trB(|ψψ|)=trB(i,jpipj|ij||ij|)=i,jδi,jpipj|ij|=ρ.

This proves the claim.

Note

  • Since square root decompositions of a positive semidefinite matrix are not unique, neither are purifications.
  • In linear algebraic terms, a square matrix is positive semidefinite if and only if it can be purified in the above sense. The if part of the implication follows immediately from the fact that the partial trace is a positive map.

An application: Stinespring's theorem

Template:Expand section By combining Choi's theorem on completely positive maps and purification of a mixed state, we can recover the Stinespring dilation theorem for the finite dimensional case.

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