Undoing the effect of loss on quantum entanglement

TL;DR

This paper demonstrates a noiseless amplification technique that can undo the effects of loss on quantum entanglement, enabling recovery of high-quality entangled states even after significant transmission losses, advancing quantum communication.

Contribution

It introduces a novel entanglement distillation method using noiseless amplification that surpasses previous limitations and can recover entanglement after high-loss transmission.

Findings

Achieved entanglement recovery after 20-fold loss.

Enhanced entanglement beyond direct transmission capabilities.

Demonstrated potential for practical quantum repeaters.

Abstract

Entanglement distillation is a process via which the strength and purity of quantum entanglement can be increased probabilistically. It is a key step in many quantum communication and computation protocols. In particular, entanglement distillation is a necessary component of the quantum repeater, a device which counters the degradation of entanglement that inevitably occurs due to losses in a communication line. Here we report an experiment on distilling the Einstein-Podolsky-Rosen (EPR) state of light, the workhorse of continuous-variable entanglement, using the technique of noiseless amplification. In contrast to previous implementations, the entanglement enhancement factor achievable by our technique is not fundamentally limited and permits recovering an EPR state with a macroscopic level of entanglement no matter how low the initial entanglement or how high the loss may be. In particular, we recover the original level of entanglement after one of the EPR modes has passed through a channel with a loss factor of 20. The level of entanglement in our distilled state is higher than that achievable by direct transmission of any state through a similar loss channel. This is a key bench-marking step towards the realization of a practical continuous-variable quantum repeater and other CV quantum protocols.