Recoverable states on von-Neumann algebras

Abstract

Let (M,τ) and (N,τ) be tracial von-Neumann algebras and let φ:M be a strictly completely positive, trace preserving map. Given a positive, invertible B∈M with τ(B)=1, a state on M given by a positive A∈ L1(M, τ) is said to be recoverable if R(φ(A))=A where R is the Petz recovery map corresponding to B and φ. In this paper, we study recoverable states and show how an arbitrary state can be made close to a recoverable state via iterates of Rφ. We show that there exists a completely positive, trace preserving map :M such that (A) is recoverable for all A and (Rφ)n in norm as operators on Lp(M,τ) for all 1\, p\,∞, and discuss potential applications to quantum information theory. We also show that this convergence holds strongly in L1. Finally, we prove an interesting decomposition theorem for normal states on M.