In quantum information theory, the idea of a typical subspace plays an important role in the proofs of many coding theorems (the most prominent example being Schumacher compression). Its role is analogous to that of the typical set in classical information theory.

Unconditional quantum typicality

Consider a density operator with the following spectral decomposition:

The weakly typical subspace is defined as the span of all vectors such that the sample entropy of their classical label is close to the true entropy of the distribution :

where

The projector onto the typical subspace of is defined as

where we have "overloaded" the symbol to refer also to the set of -typical sequences:

The three important properties of the typical projector are as follows:

where the first property holds for arbitrary and sufficiently large .

Conditional quantum typicality

Consider an ensemble of states. Suppose that each state has the following spectral decomposition:

Consider a density operator which is conditional on a classical sequence :

We define the weak conditionally typical subspace as the span of vectors (conditional on the sequence ) such that the sample conditional entropy of their classical labels is close to the true conditional entropy of the distribution :

where

The projector onto the weak conditionally typical subspace of is as follows:

where we have again overloaded the symbol to refer to the set of weak conditionally typical sequences:

The three important properties of the weak conditionally typical projector are as follows:

where the first property holds for arbitrary and sufficiently large , and the expectation is with respect to the distribution .

See also

References


This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.