#### Title

Monotonicity of quantum relative entropy and recoverability

#### Document Type

Article

#### Publication Date

9-21-2015

#### Abstract

The relative entropy is a principal measure of distinguishability in quantum information theory, with its most important property being that it is non-increasing with respect to noisy quantum operations. Here, we establish a remainder term for this inequality that quantifies how well one can recover from a loss of information by employing a rotated Petz recovery map. The main approach for proving this refinement is to combine the methods of [Fawzi and Renner, 2014] with the notion of a relative typical subspace from [Bjelakovic and Siegmund-Schultze, 2003]. Our paper constitutes partial progress towards a remainder term which features just the Petz recovery map (not a rotated Petz map), a conjecture which would have many consequences in quantum information theory. A well known result states that the monotonicity of relative entropy with respect to quantum operations is equivalent to each of the following inequalities: strong subadditivity of entropy, concavity of conditional entropy, joint convexity of relative entropy, and monotonicity of relative entropy with respect to partial trace. We show that this equivalence holds true for refinements of all these inequalities in terms of the Petz recovery map. So either all of these refinements are true or all are false.

#### Publication Source (Journal or Book title)

Quantum Information and Computation

#### First Page

1333

#### Last Page

1354

#### Recommended Citation

Berta, M., Lemm, M., & Wilde, M.
(2015). Monotonicity of quantum relative entropy and recoverability.* Quantum Information and Computation**, 15* (15-16), 1333-1354.
Retrieved from https://digitalcommons.lsu.edu/physics_astronomy_pubs/5684