Maximally Entangled Two-Qutrit Quantum Information States and De Gua’s Theorem for Tetrahedron
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Date
2023
Authors
Pashaev, Oktay
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Springer
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Abstract
Geometric relations between separable and entangled two-qubit and two-qutrit quantum information states are studied. For two qubit states a relation between reduced density matrix and the concurrence allows us to characterize entanglement by double area of a parallelogram, expressed by determinant of the complex Hermitian inner product metric. We find similar relation in the case of generic two-qutrit state, where the concurrence is expressed by sum of all 2 × 2 minors of 3 × 3 complex matrix. We show that for maximally entangled two-retrit state this relation is just De Gua’s theorem or a three-dimensional analog of the Pythagorean theorem for triorthogonal tetrahedron areas. Generalizations of our results for arbitrary two-qudit states are discussed © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.
Description
3rd International Conference on Mathematics and its Applications in Science and Engineering, ICMASE 2022 -- 4 July 2022 through 7 July 2022 -- 291239
Keywords
De Gua’s theorem, Entanglement, Generalized Pythagoras theorem, Quantum information, Qutrit states, Geometry, Quantum optics, Qubits, De gua’s theorem, Entanglement, Generalized pythagora theorem, Geometric relations, Information state, Pythagoras, Quantum Information, Qutrit state, Qutrits, Tetrahedra, Quantum entanglement
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Q4
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Source
Springer Proceedings in Mathematics and Statistics
Volume
414
Issue
Start Page
93
End Page
104
