Quantum teleportation of a three-qubit state using a five-qubit cluster state
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Publication:487419
DOI10.1007/s10773-014-2158-xzbMath1309.81049OpenAlexW1986988453MaRDI QIDQ487419
Publication date: 22 January 2015
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10773-014-2158-x
Quantum measurement theory, state operations, state preparations (81P15) Quantum coherence, entanglement, quantum correlations (81P40) Quantum information, communication, networks (quantum-theoretic aspects) (81P45)
Related Items (14)
Quantum teleportation of five-qubit state ⋮ Research on key technologies of controlled bidirectional quantum teleportation ⋮ Cyclic quantum teleportation with multi-level of control ⋮ Quantum teleportation of ten-qubit state based on the cluster state quantum channel ⋮ Dual input quantum teleportation ⋮ Quantum information splitting scheme and experimental verification based on three-qubit state and Bell state ⋮ Efficient schemes for the quantum teleportation of a sub-class of tripartite entangled states ⋮ Entanglement properties of the Kerr couplers ⋮ Teleportation of three-particle W state ⋮ Perfect quantum teleportation by four-particle cluster state ⋮ Quantum teleportation of unknown seven-qubit entangled state using four-qubit entangled state ⋮ Quantum bidirectional teleportation \(2 \leftrightarrow 2\) or \(2 \leftrightarrow 3\) qubit teleportation protocol via 6-qubit entangled state ⋮ Quantum teleportation of a \(N\)-qubit entangled state by using a \((N+1)\)-qubit cluster state ⋮ Quantum teleportation of unknown seven-qubit entangled state using four-qubit entangled state
Cites Work
- Controlled teleportation of an arbitrary two-particle pure or mixed state by using a five-qubit cluster state
- Quantum information splitting of an arbitrary multi-qubit GHZ-type state by using a four-qubit cluster state
- Quantum teleportation via \(GHZ\)-like state
- Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels
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