MINIMAL CLASSICAL COMMUNICATION COST AND MEASUREMENT COMPLEXITY IN SPLITTING TWO-QUBIT QUANTUM INFORMATION VIA ASYMMETRIC W STATES

DOI10.1142/S0219749908004419zbMath1165.81323OpenAlexW2039611030MaRDI QIDQ5322530

Wen Zhang, Xue-qin Zuo, Zhan-Jun Zhang, Yi-min Liu, Xiao-Feng Yin

Publication date: 21 July 2009

Published in: International Journal of Quantum Information (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1142/s0219749908004419

zbMATH Keywords

quantum information splitting classical communication cost measurement complexity asymmetric W states two-qubit quantum information

Mathematics Subject Classification ID

Quantum computation (81P68) Quantum measurement theory, state operations, state preparations (81P15)

Related Items (12)

Bisplitting an arbitrary \(N\)-qubit state with a class of asymmetric three-qubit W states ⋮ Quantum state sharing of an arbitrary three-qubit state by using three sets of W-class states ⋮ Controlled dense coding with a four-particle non-maximally entangled state ⋮ Splitting an arbitrary two-ubit state via a seven-qubit maximally entangled state ⋮ Splitting quantum information with five-atom cluster state in cavity QED ⋮ SPLITTING QUANTUM INFORMATION WITH FIVE-ATOM ENTANGLED STATE IN CAVITY QED ⋮ Tripartite quantum operation sharing with two asymmetric three-qubit W states in five entanglement structures ⋮ QUANTUM STATE SPLITTING WITH YEO–CHUA GENUINE ENTANGLED STATE ⋮ TRIPARTITION OF ARBITRARY SINGLE-QUBIT QUANTUM INFORMATION BY USING ASYMMETRIC FOUR-QUBIT W STATE ⋮ TELEPORTING AND SPLITTING ARBITRARY SINGLE-QUBIT INFORMATION USING A CLASS OF THREE-QUBIT W STATES ⋮ SCHEME FOR THE PREPARATION OF ENTANGLEMENT OF ATOMIC ENSEMBLES ⋮ Quantum information splitting of an arbitrary five-qubit state using four-qubit entangled states

Cites Work

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