TY - THES A3 - Gühne, Otfried AB - This thesis is devoted to learning different aspects of quantum entanglement theory. More precisely, it concerns a characterization of certain classes of pure multipartite entangled states, their nonlocal and entanglement properties, comparisons with the other well-studied classes of states and, finally, their utilization in certain quantum information processing tasks. The most extensive part of the thesis explores an interesting class of pure multipartite entangled states, quantum hypergraph states. These states are generalizations of the renowned class of graph states. Here we cover their nonlocal properties in various scenarios, derive graphical rules for unitary transformations and Pauli bases measurements. Using these rules, we characterize entanglement classes of hypergraph states under local operations, obtain tight entanglement witnesses, and calculate entanglement measures for hypergraph states. Finally, we apply all the aforementioned analysis to endorse hypergraph states as powerful resource states for measurement-based quantum computation and quantum error-correction. The rest of the thesis is devoted to three disjoint problems, but all of them are still in the scope of entanglement theory. First, using mathematical structure of linear matrix pencils, we coarse grain entanglement in tripartite pure states of local dimensions 2 x m x n under the most general local transformations. In addition, we identify the structure of generic states for every m and n and see that for certain dimensions there is a resemblance between bipartite and tripartite entanglement. Second, we consider the following question: Can entanglement detection be improved, if in addition to the expectation value of the measured witness, we have knowledge of the expectation value of another observable? For low dimensions we give necessary and sufficient criterion that such two product observables must satisfy in order to be able to detect entanglement. Finally, we derive a general statement that any genuine N-partite entangled state can always be projected on any of its k-partite subsystems in a way that the new state in genuine k-partite entangled. AU - Gachechiladze, Mariami DA - 2019 DO - 10.25819/ubsi/493 KW - Quanteninformatik KW - Quantentheorie KW - Mehrteilchen Verschränkung KW - Quantum Information KW - Quantum theory KW - Multiparticle entanglement KW - Hypergraph states KW - Bell-inequalities LA - eng PY - 2019 TI - Quantum hypergraph states and the theory of multiparticle entanglement TT - Quanten-Hypergraph-Zustände und die Theorie der Mehrteilchen-Verschränkung UR - https://nbn-resolving.org/urn:nbn:de:hbz:467-15090 Y2 - 2024-11-22T08:54:15 ER -