# Coherent control of the causal order of entanglement distillation

**Authors:** Zai Zuo, Michael Hanks, M. S. Kim

arXiv: 2302.13990 · 2023-12-08

## TL;DR

This paper introduces a quantum entanglement distillation protocol utilizing indefinite causal order, which improves fidelity and success probability over traditional methods, demonstrating practical advantages for quantum communication.

## Contribution

It proposes a novel entanglement distillation protocol that employs indefinite causal order, showing enhanced performance compared to conventional fixed-order protocols.

## Key findings

- Higher fidelity of distillation achieved
- Increased probability of success for certain faulty pairs
- Demonstrates practical advantage of indefinite causal order in quantum communication

## Abstract

Indefinite causal order is an evolving field with potential involvement in quantum technologies. Here we propose and study one possible scenario of practical application in quantum communication: a compound entanglement distillation protocol that features two steps of a basic distillation protocol applied in a coherent superposition of two causal orders. This is achieved by using one faulty entangled pair to control-swap two others before a fourth pair is combined with the two swapped ones consecutively. As a result, the protocol distills the four faulty entangled states into one of a higher fidelity. Our protocol has a higher fidelity of distillation and probability of success for some input faulty pairs than conventional concatenations of the basic protocol that follow a definite distillation order. Our proposal shows the advantage of indefinite causal order in an application setting consistent with the requirements of quantum communication.

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Source: https://tomesphere.com/paper/2302.13990