Quantum information and communication processing within quantum networks usually employ identical particles. Despite this, the physical role of the quantum statistical nature of particles in large-scale networks remains elusive. Here, we show that just the indistinguishability of fermions allows a new mechanism of entanglement transfer in many-node quantum networks. This process activates remote entanglement among distant sites, which do not share a common past, by only locally counting identical particles and classical communication. These results constitute the key achievement of the present technique and open the way to a more stable multistage transfer of nonlocal quantum correlations based on fermions.
Castellini, A., Bellomo, B., Compagno, G., Lo Franco, R. (2019). Activating remote entanglement in a quantum network by local counting of identical particles. PHYSICAL REVIEW A, 99(6) [10.1103/PhysRevA.99.062322].
Activating remote entanglement in a quantum network by local counting of identical particles
Castellini, AlessiaMembro del Collaboration Group
;Compagno, GiuseppeSupervision
;Lo Franco, RosarioSupervision
2019-01-01
Abstract
Quantum information and communication processing within quantum networks usually employ identical particles. Despite this, the physical role of the quantum statistical nature of particles in large-scale networks remains elusive. Here, we show that just the indistinguishability of fermions allows a new mechanism of entanglement transfer in many-node quantum networks. This process activates remote entanglement among distant sites, which do not share a common past, by only locally counting identical particles and classical communication. These results constitute the key achievement of the present technique and open the way to a more stable multistage transfer of nonlocal quantum correlations based on fermions.
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