Entanglement Percolation with Bipartite Mixed States

TL;DR

This paper introduces a framework for entanglement percolation in quantum networks using bipartite mixed states, establishing conditions for singlet generation and proposing protocols for distillation and network optimization.

Contribution

It provides a necessary and sufficient condition for entanglement percolation with mixed states and develops versatile distillation protocols suitable for various network geometries.

Findings

Necessary and sufficient condition for singlet generation in mixed states

Distillation protocols with high success probability for impure states

Enhanced network strategies using quantum entanglement swapping

Abstract

We develop a concept of entanglement percolation for long-distance singlet generation in quantum networks with neighboring nodes connected by partially entangled bipartite mixed states. We give a necessary and sufficient condition on the class of mixed network states for the generation of singlets. States beyond this class are insufficient for entanglement percolation. We find that neighboring nodes are required to be connected by multiple partially entangled states and devise a rich variety of distillation protocols for the conversion of these states into singlets. These distillation protocols are suitable for a variety of network geometries and have a sufficiently high success probability even for significantly impure states. In addition to this, we discuss possible further improvements achievable by using quantum strategies including generalized forms of entanglement swapping.