Preparing a genuinely entangled six-atom state in cavity QED
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Publication:382873
DOI10.1007/s10773-013-1600-9zbMath1276.81021OpenAlexW1988989724WikidataQ59713509 ScholiaQ59713509MaRDI QIDQ382873
Yue Xu, Yuan-hua Li, Li-ping Nie, Xiao-lan Li
Publication date: 22 November 2013
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10773-013-1600-9
Cites Work
- Quantum information splitting of an arbitrary three-qubit state by using a genuinely entangled five-qubit state and a Bell-state
- Dense coding with cluster state via local measurements
- Quantum information splitting of an arbitrary three-qubit state by using two four-qubit cluster states
- Quantum information processing through a genuine five-qubit entangled state in cavity QED
- Quantum Information Splitting of an Arbitrary Three-Atom State by Using W-class States in Cavity QED
- PREPARING HIGHLY ENTANGLED SIX-QUBIT GENUINE STATE IN ION-TRAP SYSTEM
- QUANTUM SECURE DIRECT COMMUNICATION USING A SIX-QUBIT MAXIMALLY ENTANGLED STATE WITH DENSE CODING
- THRESHOLD MULTIPARTY QUANTUM-INFORMATION SPLITTING VIA QUANTUM CHANNEL ENCRYPTION
- Quantum teleportation and state sharing using a genuinely entangled six-qubit state
- Teleporting an unknown quantum state via dual classical and Einstein-Podolsky-Rosen channels
- Quantum Information Splitting Based on Current Cavity QED Techniques
- Multiqubit systems: highly entangled states and entanglement distribution
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