We use the concept of entangled graphs with weighted edges to present a classification for four-qubit entanglement which is based neither on the LOCC nor the SLOCC. Entangled graphs, first introduced by Plesch et al. [Phys. Rev. A 67, 012322 (2003)], are structures such that each qubit of a multi-qubit system is represented as a vertex and an edge between two vertices denotes bipartite entanglement between the corresponding qubits. Our classification is based on the use of generalized Schmidt decomposition of pure states of multi-qubit systems. We show that for every possible entangled graph one can find a pure state such that the reduced entanglement of each pair, ...
Absolutely maximally entangled (AME) states are multipartite entan-gled states that are maximally en...
We introduce a class of generalized geometric measures of entanglement. For pure quantum states of N...
48 pages, 7 tables, 13 figures A paraître dans Journal of Mathematical PhysicsInternational audience...
Bi-partite entanglement in multi-qubit systems cannot be shared freely. The rules of quantum mechani...
Bipartite correlations in multi-qubit systems cannot be shared freely. The presence of entanglement ...
This thesis is an attempt to enhance understanding of the following questions A- Given a multipartit...
We apply the general formalism of nilpotent polynomials (Mandilara et al 2006 Phys. Rev. A 74 022331...
Multi-qubit graph states generated by the action of controlled phase shift operators on a separable ...
We investigate the entanglement properties of graph states which correspond to connected graphs by c...
We consider a single copy of a pure four-partite state of qubits and investigate its behavior under ...
For the relative entropy-based measure of quantum discord the key idea is to find the closest classi...
We classify multipartite entangled states in the Hilbert space H=C-2 x C-2 x C-n (ngreater than or e...
A general framework is developed for separating classical and quantum correlations in a multipartite...
Systems of four nonbinary particles, with each particle having d?3 internal states, exhibit maximall...
We report on a geometric formulation of multipartite entanglement measures which sets a generalizati...
Absolutely maximally entangled (AME) states are multipartite entan-gled states that are maximally en...
We introduce a class of generalized geometric measures of entanglement. For pure quantum states of N...
48 pages, 7 tables, 13 figures A paraître dans Journal of Mathematical PhysicsInternational audience...
Bi-partite entanglement in multi-qubit systems cannot be shared freely. The rules of quantum mechani...
Bipartite correlations in multi-qubit systems cannot be shared freely. The presence of entanglement ...
This thesis is an attempt to enhance understanding of the following questions A- Given a multipartit...
We apply the general formalism of nilpotent polynomials (Mandilara et al 2006 Phys. Rev. A 74 022331...
Multi-qubit graph states generated by the action of controlled phase shift operators on a separable ...
We investigate the entanglement properties of graph states which correspond to connected graphs by c...
We consider a single copy of a pure four-partite state of qubits and investigate its behavior under ...
For the relative entropy-based measure of quantum discord the key idea is to find the closest classi...
We classify multipartite entangled states in the Hilbert space H=C-2 x C-2 x C-n (ngreater than or e...
A general framework is developed for separating classical and quantum correlations in a multipartite...
Systems of four nonbinary particles, with each particle having d?3 internal states, exhibit maximall...
We report on a geometric formulation of multipartite entanglement measures which sets a generalizati...
Absolutely maximally entangled (AME) states are multipartite entan-gled states that are maximally en...
We introduce a class of generalized geometric measures of entanglement. For pure quantum states of N...
48 pages, 7 tables, 13 figures A paraître dans Journal of Mathematical PhysicsInternational audience...