Schemes for remotely preparing an arbitrary four-qubit \(\chi\)-state
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Publication:481632
DOI10.1007/S11128-014-0788-9zbMath1305.81042OpenAlexW1975966389MaRDI QIDQ481632
Yi-Xian Yang, Xiu-Bo Chen, Song-Ya Ma, Ming-Xing Luo
Publication date: 12 December 2014
Published in: Quantum Information Processing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s11128-014-0788-9
permutation groupremote state preparationcomplete orthogonal basisprojective measurementfour-qubit \(\chi\)-state
Quantum measurement theory, state operations, state preparations (81P15) Quantum information, communication, networks (quantum-theoretic aspects) (81P45)
Related Items (12)
Controlled remote preparation of an arbitrary four-qubit \(\chi\) state via partially entangled channel ⋮ Deterministic remote two-qubit state preparation in dissipative environments ⋮ Multiparty-controlled joint remote preparation of an arbitrary four-qubit cluster-type state via two different entangled quantum channels ⋮ Deterministic bidirectional controlled remote preparation without information splitting ⋮ Quantum secure direct communication based on four-particle cluster state grouping ⋮ Controlled remote state preparation of an arbitrary two-qubit state via a six-qubit cluster state ⋮ Hierarchical controlled remote preparation via the Brown state under the noisy environment ⋮ Optimal remote preparation of a four-qubit entangled cluster-type state via two non-maximally entangled GHZ-type states ⋮ Bidirectional hybrid controlled quantum communication under noisy environment ⋮ Deterministic remote preparation of a four-particle entangled W state ⋮ Deterministic remote preparation via the \(\chi\) state in noisy environment ⋮ Controlled joint remote preparation of an arbitrary \(N\)-qubit state
Cites Work
- Experimental architecture of joint remote state preparation
- Joint remote preparation of an arbitrary 4-qubit \(\chi\)-state
- Controlled remote state preparation of arbitrary two and three qubit states via the Brown state
- Highly efficient remote preparation of an arbitrary three-qubit state via a four-qubit cluster state and an EPR state
- Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels
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