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Abstract
In the past decade, the toolkit of quantum information has been expanded to include processes in which the basic operations do not have definite causal relations. Originally considered in the context of the unification of quantum mechanics and general relativity, these causally indefinite processes have been shown to offer advantages in a wide variety of quantum-information processing tasks, ranging from quantum computation to quantum metrology. Here, we overview these advantages and the experimental efforts to realize them. We survey both the experimental techniques employed and the theoretical methods developed in support of the experiments, before discussing the interpretations of current experimental results and giving an outlook on the future of the field.
Originalsprache | Englisch |
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Seiten (von - bis) | 483–499 |
Seitenumfang | 17 |
Fachzeitschrift | Nature Reviews Physics |
Jahrgang | 6 |
Ausgabenummer | 8 |
DOIs | |
Publikationsstatus | Veröffentlicht - Aug. 2024 |
ÖFOS 2012
- 103025 Quantenmechanik
- 103026 Quantenoptik
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quantA: Quantum Science Austria
Aspelmeyer, M., Arndt, M., Brukner, C., Schuch, N., Walther, P. & Nunnenkamp, A.
1/10/23 → 30/09/28
Projekt: Forschungsförderung
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GRAVITES: Gravitational interferometry with entangled states in optical fibers
Walther, P. & Chrusciel, P. T.
1/04/23 → 31/03/29
Projekt: Forschungsförderung
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Applications and Hardware for Photonic Quantum Information Processing (MC AppQInfo)
1/03/21 → 28/02/25
Projekt: Forschungsförderung