Experimental MDI entanglement verification and quantification realized in a fully connected four-user time-bin quantum network using polarization-encoded trusted inputs and a single dataset without ancillary photons.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
verdicts
UNVERDICTED 3representative citing papers
Time evolution of genuine multipartite negativity in the open Kitaev quantum spin liquid shows persistence in loopy subregions in Markovian regime and at higher temperatures in non-Markovian regime.
Two quantum Wasserstein distance definitions coincide for qubits with single-operator cost functions, implying the self-distance equals the Wigner-Yanase skew information.
citing papers explorer
-
Measurement-Device-Independent Entanglement Quantification in a Fully Connected Time-Bin Quantum Network
Experimental MDI entanglement verification and quantification realized in a fully connected four-user time-bin quantum network using polarization-encoded trusted inputs and a single dataset without ancillary photons.
-
Fate of entanglement in open quantum spin liquid: Time evolution of its genuine multipartite negativity upon sudden coupling to a dissipative bosonic environment
Time evolution of genuine multipartite negativity in the open Kitaev quantum spin liquid shows persistence in loopy subregions in Markovian regime and at higher temperatures in non-Markovian regime.
-
Relations between different definitions of the quantum Wasserstein distance for qubits
Two quantum Wasserstein distance definitions coincide for qubits with single-operator cost functions, implying the self-distance equals the Wigner-Yanase skew information.