Randomly distilling W-class states into general configurations of two-party entanglement

Abstract

In this article we obtain new results for the task of converting a single N-qubit W-class state (of the form x000...0+x110...0+...+xN00...1) into maximum entanglement shared between two random parties. Previous studies in random distillation have not considered how the particular choice of target pairs affects the transformation, and here we develop a strategy for distilling into general configurations of target pairs. We completely solve the problem of determining the optimal distillation probability for all three qubit configurations and most four qubit configurations when x0=0. Our proof involves deriving new entanglement monotones defined on the set of four qubit W-class states. As an additional application of our results, we present new upper bounds for converting a generic W-class state into the standard W state WN=1N(10...0+...+00...1).