Quantum operation sharing with symmetric and asymmetric W states
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Publication:356885
DOI10.1007/S11128-013-0533-9zbMath1270.81043OpenAlexW2086850384MaRDI QIDQ356885
Qibin Ji, Xiansong Liu, Zhan-Jun Zhang, Yi-min Liu, Xiao-Feng Yin
Publication date: 26 July 2013
Published in: Quantum Information Processing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11128-013-0533-9
Quantum measurement theory, state operations, state preparations (81P15) Quantum coherence, entanglement, quantum correlations (81P40) Quantum information, communication, networks (quantum-theoretic aspects) (81P45)
Related Items (23)
Bidirectional controlled teleportation by using nine-qubit entangled state in noisy environments ⋮ Generation of multi-atom asymmetric W state and cluster state via long-range off-resonant Raman coupling in separate cavities ⋮ Fraction-free unit circle stability tests ⋮ Tripartite operation sharing with five-qubit Brown state ⋮ Generalized three-party sharing of operations on remote single qutrit ⋮ Deterministic tripartite sharing of eight restricted sets of single-qubit operations with two Bell states or a GHZ state ⋮ Deterministic single-qubit operation sharing with five-qubit cluster state ⋮ Bidirectional controlled remote implementation of an arbitrary single qubit unitary operation with EPR and cluster states ⋮ Simplistic quantum operation sharing with a five-qubit genuinely entangled state ⋮ Multicharacters remote rotation sharing with five-particle cluster state ⋮ Deterministic hierarchical quantum operation sharing with five-qubit partially entangled states ⋮ Deterministic tripartite sharing of an arbitrary single-qubit operation with the five-qubit cluster state in a given entanglement structure ⋮ Tripartite operation sharing with a six-particle maximally entangled state ⋮ Quantum multicast, multi-output protocols of quantum state sharing and quantum operation sharing via six-particle cluster state ⋮ Shared quantum control via sharing operation on remote single qutrit ⋮ Bidirectional controlled quantum teleportation and secure direct communication using five-qubit entangled state ⋮ Four-party deterministic operation sharing with six-qubit cluster state ⋮ Tripartite quantum operation sharing with two asymmetric three-qubit W states in five entanglement structures ⋮ Multihop teleportation via the composite of asymmetric W state and Bell state ⋮ Quantum mutual authentication key agreement scheme using five-qubit entanglement towards different realm architecture ⋮ Tripartite quantum operation sharing with a six-qubit absolutely maximally entangled state ⋮ Efficient tripartite quantum operation sharing with five-qubit absolutely maximally entangled state ⋮ Remotely sharing a single-qubit operation via a six-qubit entangled state
Cites Work
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