Highly efficient remote preparation of an arbitrary three-qubit state via a four-qubit cluster state and an EPR state
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Publication:1952639
DOI10.1007/S11128-012-0474-8zbMath1264.81098OpenAlexW2006854297MaRDI QIDQ1952639
Publication date: 31 May 2013
Published in: Quantum Information Processing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11128-012-0474-8
cluster stateremote state preparationclassical communication costsuccess probabilitygeneral three-qubit stateorthogonal complete measurement bases
Related Items (15)
Deterministic joint remote preparation of an arbitrary sevenqubit cluster-type state ⋮ Remote state preparation of a two-atom entangled state in cavity QED ⋮ Deterministic joint remote state preparation of four-qubit cluster type with tripartite involvement ⋮ Deterministic tripartite sharing of an arbitrary single-qubit operation with the five-qubit cluster state in a given entanglement structure ⋮ Double-direction quantum cyclic controlled remote state preparation of two-qubit states ⋮ Efficient schemes of remote state preparation for four-qubit entangled cluster-type state via two non-maximally entangled GHZ-type states ⋮ Efficient joint remote preparation of an arbitrary two-qubit state via cluster and cluster-type states ⋮ Schemes for remotely preparing an arbitrary four-qubit \(\chi\)-state ⋮ Deterministic controlled remote preparation of two-qutrit equatorial states ⋮ Deterministic bidirectional remote state preparation of a- and symmetric quantum states with a proper quantum channel ⋮ Optimal remote preparation of a four-qubit entangled cluster-type state via two non-maximally entangled GHZ-type states ⋮ A highly efficient scheme for joint remote preparation of multi-qubit W state with minimum quantum resource ⋮ Improving the bidirectional quantum teleportation scheme via five-qubit cluster state ⋮ Optimizing the scheme of bidirectional controlled quantum teleportation with a genuine five-qubit entangled state ⋮ Bidirectional quantum-controlled teleportation using six-qubit cluster state without remote joint operation
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