New maximally entangled states and pattern classification in two-qubit system
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Publication:458575
DOI10.1007/s10773-014-2120-yzbMath1310.81032OpenAlexW1985601248MaRDI QIDQ458575
Manu Pratap Singh, Balwant S. Rajput
Publication date: 8 October 2014
Published in: International Journal of Theoretical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s10773-014-2120-y
Related Items (7)
Applications of Singh-Rajput MES in recall operations of quantum associative memory for a two-qubit system ⋮ Classification of patterns representing apples and oranges in three-qubit system ⋮ Simultaneous classification of Oranges and Apples using Grover's and Ventura' algorithms in a two-qubits system ⋮ New maximally entangled states for pattern-association through evolutionary processes in a two-qubit system ⋮ Quantum encoding and entanglement in terms of phase operators associated with harmonic oscillator ⋮ Processes of quantum associative memory (QuAM) through new maximally entangled states (Singh-Rajput MES) ⋮ Pattern classifications using Grover's and Ventura's algorithms in a two-qubits system
Cites Work
- Dense coding with cluster state via local measurements
- Controlled dense coding between multi-parties
- Maximally entangled states of a two-qubit system
- Topological Phase for Entangled Two-Qubit States
- On the Power of Quantum Computation
- Controlled Teleportation Using Four-Particle Cluster State
- Entanglement of Formation of an Arbitrary State of Two Qubits
- Quantum Zeno dynamics: mathematical and physical aspects
- Quantum associative memory with distributed queries
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