Distillation of Quantum Steering

Nery, R., V; Taddei, M. M.; Sahium, P.; Walborn, S. P.; Aolita, L.; Aguilar, G. H.

Abstract

We show-both theoretically and experimentally-that Einstein-Podolsky -Rosen steering can be distilled. We present a distillation protocol that outputs a perfectly correlated system-the singlet assemblage-in the asymptotic infinite-copy limit, even for inputs that are arbitrarily close to being unsteerable. As figures of merit for the protocol's performance, we introduce the assemblage fidelity and the singlet-assemblage fraction. These are potentially interesting quantities on their own beyond the current scope. Remarkably, the protocol works well also in the nonasymptotic regime of few copies, in the sense of increasing the singlet-assemblage fraction. We demonstrate the efficacy of the protocol using a hyper-entangled photon pair encoding two copies of a two-qubit state. This represents to our knowledge the first observation of deterministic steering concentration. Our findings are not only fundamentally important but may also be useful for semi-device-independent protocols in noisy quantum networks.

Más información

Título según WOS: ID WOS:000522195100001 Not found in local WOS DB
Título de la Revista: PHYSICAL REVIEW LETTERS
Volumen: 124
Número: 12
Editorial: American Physical Society
Fecha de publicación: 2020
DOI:

10.1103/PhysRevLett.124.120402

Notas: ISI