Holographic Storage of Biphoton Entanglement

TL;DR

This paper demonstrates the coherent and reversible storage of biphoton entanglement using a holographic multimode atomic-ensemble quantum memory, achieving Bell inequality violation after 1 microsecond and high fidelity.

Contribution

It introduces a method for storing biphoton entanglement in a holographic multimode quantum memory, advancing scalable quantum information processing capabilities.

Findings

Bell inequality violation after 1 microsecond storage

Memory-process fidelity of 98%

Successful coherent and reversible storage of biphoton entanglement

Abstract

Coherent and reversible storage of multi-photon entanglement with a multimode quantum memory is essential for scalable all-optical quantum information processing. Although single photon has been successfully stored in different quantum systems, storage of multi-photon entanglement remains challenging because of the critical requirement for coherent control of photonic entanglement source, multimode quantum memory, and quantum interface between them. Here we demonstrate a coherent and reversible storage of biphoton Bell-type entanglement with a holographic multimode atomic-ensemble-based quantum memory. The retrieved biphoton entanglement violates Bell's inequality for 1 microsecond storage time and a memory-process fidelity of 98% is demonstrated by quantum state tomography.