6533b854fe1ef96bd12af237
RESEARCH PRODUCT
Robust entanglement preparation through spatial indistinguishability quantified by entropic measure
Giuseppe CompagnoAlessia CastelliniRosario Lo FrancoFarzam NosratiFarzam Nosratisubject
Quantum technologyComputer scienceQubitContext (language use)Statistical physicsQuantum entanglementWave functionMeasure (mathematics)QuantumIdentical particlesdescription
Initialization of composite quantum systems into highly entangled states is important to enable their use for quantum technologies. However, unavoidable noise in the preparation stage makes the system state mixed, hindering the achievement of this goal. We address this problem in the context of identical particle systems adopting the operational framework of spatially localized operations and classical communication (sLOCC). After a brief description of the formalism, we define the entanglement of formation for an arbitrary state (pure or mixed) of two identical qubits, valid for both bosons and fermions. We then introduce an entropic measure of spatial indistinguishability as an information resource, tunable by the shapes of spatial wave functions. We finally apply these tools to a situation of experimental interest, that is noisy entangled state preparation. We find that spatial indistinguishability, even partial, can be a property shielding nonlocal entanglement from preparation noise, independently of the exact shape of spatial wave functions. These results prove that quantum indistinguishability is an inherent control for noise-free entanglement generation.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-05-05 | Proceedings of Entropy 2021: The Scientific Tool of the 21st Century |