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Ivette Fuentes-Schuller
Researcher at National Autonomous University of Mexico
Publications - 7
Citations - 1169
Ivette Fuentes-Schuller is an academic researcher from National Autonomous University of Mexico. The author has contributed to research in topics: Quantum entanglement & Squashed entanglement. The author has an hindex of 7, co-authored 7 publications receiving 989 citations. Previous affiliations of Ivette Fuentes-Schuller include University of Oxford & Perimeter Institute for Theoretical Physics.
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Alice falls into a black hole: entanglement in noninertial frames.
TL;DR: It is shown that a state which is maximally entangled in an inertial frame becomes less entangled if the observers are relatively accelerated, which shows that entanglement is an observer-dependent quantity in noninertial frames.
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Entanglement of Dirac fields in noninertial frames
Paul M. Alsing,Ivette Fuentes-Schuller,Ivette Fuentes-Schuller,Robert B. Mann,Robert B. Mann,Tracey E. Tessier +5 more
TL;DR: In this paper, the authors analyzed the entanglement between two modes of a free Dirac field as seen by two relatively accelerated parties and showed that the state always remains entangled to a degree and can be used in quantum information tasks, such as teleportation.
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Entanglement in an expanding spacetime
Jonathan L. Ball,Ivette Fuentes-Schuller,Ivette Fuentes-Schuller,Ivette Fuentes-Schuller,Frederic P. Schuller,Frederic P. Schuller +5 more
TL;DR: In this article, it was shown that a dynamical spacetime generates entanglement between modes of a quantum field, which encodes information concerning the underlying spacetime structure, which hints at the prospect of applications of this observation to cosmology.
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Continuous-variable entanglement sharing in noninertial frames
TL;DR: In this article, the distribution of entanglement between modes of a free scalar field from the perspective of observers in uniform acceleration was studied, and it was shown that for two observers undergoing finite acceleration, the entenglement vanishes between the lowest frequency modes.
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Correlation loss and multipartite entanglement across a black hole horizon
TL;DR: In this paper, a scalar field is considered in a two-mode squeezed state from the point of view of freely falling (Kruskal) observers crossing the horizon of a Schwarzschild black hole.