M
Marcus Huber
Researcher at Austrian Academy of Sciences
Publications - 219
Citations - 10208
Marcus Huber is an academic researcher from Austrian Academy of Sciences. The author has contributed to research in topics: Quantum entanglement & Quantum. The author has an hindex of 48, co-authored 201 publications receiving 7827 citations. Previous affiliations of Marcus Huber include University of Vienna & University of Geneva.
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Thermodynamically optimal creation of correlations
Faraj Bakhshinezhad,Faraj Bakhshinezhad,Fabien Clivaz,Fabien Clivaz,Giuseppe Vitagliano,Paul Erker,Ali T. Rezakhani,Marcus Huber,Nicolai Friis +8 more
TL;DR: In this paper, a framework for studying the process of optimally correlating identical (thermal) quantum systems is proposed based on decompositions into subspaces that each support only states with diagonal marginals.
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Genuine-multipartite entanglement criteria based on positive maps
TL;DR: In this article, the authors generalize the bipartite concept to the multipartite setting by introducing non-positive maps that are positive on the subset of bi-separable states, but can map to a nonpositive element if applied to a genuine multi-partite entangled state.
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High-Dimensional Pixel Entanglement: Efficient Generation and Certification
Natalia Herrera Valencia,Vatshal Srivastav,Matej Pivoluska,Matej Pivoluska,Marcus Huber,Marcus Huber,Nicolai Friis,Will McCutcheon,Mehul Malik,Mehul Malik +9 more
TL;DR: In this paper, the authors show the certification of photonic high-dimensional entanglement in the transverse position-momentum degree-of-freedom with a record quality, measurement speed, and dimensionality, without making any assumptions about the state or channels.
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Simplex of bound entangled multipartite qubit states
TL;DR: In this paper, a simplex for multipartite qubit states of even number of qubits was constructed, which has the same geometry concerning separability, mixedness, kind of entanglement, amount of entangledness, and non-locality as the bipartite states.
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Unified approach to entanglement criteria using the Cauchy-Schwarz and Hölder inequalities
TL;DR: In this paper, a unified approach to different recent entanglement criteria is presented, which is all applications of a more general principle given by the Cauchy-Schwarz inequality.