Experimental one-step deterministic entanglement purification

TL;DR

This paper demonstrates the first experimental realization of deterministic entanglement purification using hyperentanglement, significantly improving fidelity and efficiency for quantum communication.

Contribution

It introduces a novel one-step deterministic entanglement purification method utilizing polarization and spatial mode hyperentanglement, enhancing efficiency over traditional protocols.

Findings

Fidelity of polarization entanglement increased from 0.268 to 0.989

Purification efficiency estimated at 10^9 times higher than traditional methods

Potential integration into full quantum repeater protocols

Abstract

Entanglement purification is to distill high-quality entangled states from low-quality entangled states. It is a key step in quantum repeaters, determines the efficiency and communication rates of quantum communication protocols, and is hence of central importance in long-distance communications and quantum networks. In this work, we report the first experimental demonstration of deterministic entanglement purification using polarization and spatial mode hyperentanglement. After purification, the fidelity of polarization entanglement arises from $0.268\pm0.002$ to $0.989\pm0.001$. Assisted with robust spatial mode entanglement, the total purification efficiency can be estimated as $10^{9}$ times that of the entanglement purification protocols using two copies of entangled states when one uses the spontaneous parametric down-conversion sources. Our work may have the potential to be implemented as a part of full repeater protocols.