
Quantum foundations concerns the conceptual and mathematical underpinnings of quantum theory. In particular, we search for novel quantum effects, consider how to interpret the formalism, ask where the formalism comes from, and how we might modify it. Research at Perimeter Institute is particularly concerned with reconstructing quantum theory from more natural postulates and reformulating the theory in ways that elucidate its conceptual structure. Research in the foundations of quantum theory naturally interfaces with research in quantum information and quantum gravity.
Format results
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Quantum non-classicality in the simplest causal network
Pedro Lauand University of Campinas
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A decompositional framework for process theories in spacetime
Matthias Salzger ICTQT, University of Gdansk
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Indefinite causal order and quantum reference frames
Anne-Catherine de la Hamette University of Vienna / IQOQI Vienna
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Higher-order quantum computation and causality
Mio Murao University of Tokyo
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Relativistic Concepts in Point-Free Spaces
Nesta van der Schaaf -
Observational-Interventional Bell Inequalities
Davide Poderini Universidade Federal do Rio Grande do Norte
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Making Sense of Relativistic Causality Conditions
Wayne Myrvold Western University