Litcius/Paper detail

Characterizing mixed-state entanglement through single-photon interference

Mayukh Lahiri, Radek Łapkiewicz, Armin Hochrainer, Gabriela Barreto Lemos, Anton Zeilinger

2021Physical review. A/Physical review, A17 citationsDOIOpen Access PDF

Abstract

Entanglement verification and measurement is essential for experimental tests of quantum mechanics and also for quantum communication and information science. Standard methods of verifying entanglement in a bipartite mixed state require detection of both particles and involve coincidence measurement. We present a method that enables us to verify and measure entanglement in a two-photon mixed state without detecting one of the photons, i.e., without performing any coincidence measurement or postselection. We consider two identical sources, each of which can generate the same two-photon mixed state but they never emit simultaneously. We show that one can produce a set of single-photon interference patterns, which contain information about entanglement in the two-photon mixed state. We prove that it is possible to retrieve the information about entanglement from the visibility of the interference patterns. Our method reveals a distinct avenue for verifying and measuring entanglement in mixed states.

Topics & Concepts

Quantum entanglementCoincidence countingPostselectionCoincidencePhotonPhysicsQuantum mechanicsPhoton entanglementMultipartite entanglementSquashed entanglementInterference (communication)Quantum metrologyMeasure (data warehouse)State (computer science)Quantum sensorQuantum informationQuantum information scienceQuantumQuantum discordComputer scienceQuantum networkAlgorithmTelecommunicationsAlternative medicineChannel (broadcasting)DatabasePathologyMedicineQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture