Sinkhorn's theorem


Sinkhorn's theorem states that every square matrix with positive entries can be written in a certain standard form.

Theorem

If A is an n × n matrix with strictly positive elements, then there exist diagonal matrices D1 and D2 with strictly positive diagonal elements such that D1AD2 is doubly stochastic. The matrices D1 and D2 are unique modulo multiplying the first matrix by a positive number and dividing the second one by the same number.

Sinkhorn-Knopp algorithm

A simple iterative method to approach the double stochastic matrix is to alternately rescale all rows and all columns of A to sum to 1. Sinkhorn and Knopp presented this algorithm and analyzed its convergence.

Analogues and extensions

The following analogue for unitary matrices is also true: for every unitary matrix U there exist two diagonal unitary matrices L and R such that LUR has each of its columns and rows summing to 1.
The following extension to maps between matrices is also true : given a Kraus operator
which represents the quantum operation Φ mapping a density matrix into another,
that is trace preserving,
and, in addition, whose range is in the interior of the positive definite cone, there exist scalings xj, for j in, that are positive definite so that the rescaled Kraus operator
is doubly stochastic. In other words, it is such that both,
as well as for the adjoint,
where I denotes the identity operator.