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Nora Tischler
Researcher at Australian Research Council
Publications - 54
Citations - 1105
Nora Tischler is an academic researcher from Australian Research Council. The author has contributed to research in topics: Quantum information & Angular momentum. The author has an hindex of 15, co-authored 49 publications receiving 833 citations. Previous affiliations of Nora Tischler include University of Vienna & Free University of Berlin.
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Journal ArticleDOI
Electromagnetic Duality Symmetry and Helicity Conservation for the Macroscopic Maxwell's Equations
Ivan Fernandez-Corbaton,Xavier Zambrana-Puyalto,Nora Tischler,Xavier Vidal,Mathieu L. Juan,Gabriel Molina-Terriza +5 more
TL;DR: It is shown that the electromagnetic duality symmetry can be restored for the macroscopic Maxwell's equations by the presence of charges, and the restoration is shown to be independent of the geometry of the problem.
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Testing the reality of Wigner's friend's observations
Kok-Wei Bong,Aníbal Utreras-Alarcón,Farzad Ghafari,Yeong-Cherng Liang,Nora Tischler,Eric G. Cavalcanti,Geoff J. Pryde,Howard M. Wiseman +7 more
TL;DR: In this paper, it was shown that if quantum evolution is controllable on the scale of an observer, then one of the following three assumptions must be false: "No-Superdeterminism", "Locality", or "Absoluteness of Observed Events" (i.e. that every observed event exists absolutely, not relatively).
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Experimental control of optical helicity in nanophotonics
Nora Tischler,Ivan Fernandez-Corbaton,Xavier Zambrana-Puyalto,Alexander Minovich,Xavier Vidal,Mathieu L. Juan,Gabriel Molina-Terriza +6 more
TL;DR: In this paper, a simple but versatile experimental treatment of helicity is proposed for the scattering of light by isolated cylindrical nano-apertures in a gold film, which allows us to study the helicity transformation taking place during the interaction of focused light with the nanoaperture.
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Experimental Quantum Switching for Exponentially Superior Quantum Communication Complexity.
Kejin Wei,Nora Tischler,Si-Ran Zhao,Yu-Huai Li,Juan Miguel Arrazola,Yang Liu,Weijun Zhang,Hao Li,Lixing You,Zhen Wang,Yu-Ao Chen,Barry C. Sanders,Barry C. Sanders,Barry C. Sanders,Qiang Zhang,Geoff J. Pryde,Feihu Xu,Jian-Wei Pan +17 more
TL;DR: In this article, the authors demonstrate a two-party distributed computation with quantum causal order of events, where the quantum switch is harnessed theoretically in a new protocol providing provable exponential separation.
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Experimental Realization of a Quantum Autoencoder: The Compression of Qutrits via Machine Learning
TL;DR: In this paper, a quantum autoencoder is proposed to compress quantum data using a classical optimization routine, which is able to perform with minimal prior information about the quantum data or physical system and is robust to perturbations during its optimization routine.