Project
Tightening the Consistency of Quantum Bayesianism
Quantum Bayesianism is an effort to interpret all the probabilities arising in quantum theory (our most accurate physical theory to date, the one ultimately responsible for almost all of modern technology) in terms of the Bayesian conception of probability – that probabilities quantify subjective degrees of belief, rather than objective features of nature.
Publication
Follow the Math!: The Mathematics of Quantum Mechanics as the Mathematics of Set Partitions Linearized to (Hilbert) Vector Spaces
Ellerman, David. 2022. Follow the Math!: The Mathematics of Quantum Mechanics as the Mathematics of Set Partitions Linearized to (Hilbert) V...
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Consistent Quantification as a Unifying Principle in Physics and the Sciences
Science relies on numeric quantification, which can be traced back to Euclid, Galileo, and Newton.
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Born’s rule as a quantum extension of Bayesian coherence
DeBrota, John B., Christopher A. Fuchs, Jacques. L. Pienaar and Blake C Stacey. 2021. Born’s rule as a quantum extension of Bayesian coheren...
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Symmetric informationally complete measurements identify the irreducible difference between classical and quantum systems
DeBrota, John B., Christopher A. Fuchs and Blake C Stacey, B. C. 2020. Symmetric informationally complete measurements identify the irreduci...
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An introduction to QBism with an application to the locality of quantum mechanics
Fuchs, Christopher A., N. David Mermin and Rüdiger Schack. 2014. An introduction to QBism with an application to the locality of quantum mec...
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A Brief Historical Perspective on the Consistent Histories Interpretation of Quantum Mechanics
Rocha, Gustavo R., Dean Rickles and Florian J. Boge. 2021. A Brief Historical Perspective on the Consistent Histories Interpretation of Quan...
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The varieties of minimal tomographically complete measurements
DeBrota, John B., Christopher A. Fuchs and Blake C. Stacey. 2020. The varieties of minimal tomographically complete measurements. Internatio...
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Respecting One’s Fellow: QBism’s Analysis of Wigner’s Friend
DeBrota, John B., Christopher A Fuchs and Rüdiger Schack. 2020. Respecting One’s Fellow: QBism’s Analysis of Wigner’s Friend. Foundations of...
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Classes of f-Deformed Landau Operators: Nonlinear Noncommutative Coordinates from Algebraic Representations
Geloun, J. Ben, Jan Govaerts and Norbert M. Hounkonnou. 2019. Classes of f-Deformed Landau Operators: Nonlinear Noncommutative Coordinates f...
Publication
Respecting One’s Fellow: QBism’s Analysis of Wigner’s Friend
DeBrota, John B., Christopher A. Fuchs and Rüdiger Schack. 2020. Respecting One’s Fellow: QBism’s Analysis of Wigner’s Friend. Foundations o...
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Reply to a Comment on “Quantum Theory and the Limits of Objectivity
Healey, Richard. 2019. Reply to a Comment on “Quantum Theory and the Limits of Objectivity.” Foundations of Physics, 49(8), 816–819. https:/...
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Is the Reality Criterion Analytic?
Glick, David, and Boge, Florian J. 2019. Is the Reality Criterion Analytic? Erkenntnis. https://doi.org/10.1007/s10670-019-00163-w
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Healey, Richard. 2019. Beyond Bell?
Healey, Richard. 2019. Beyond Bell? PhilSci Archive. http://philsci-archive.pitt.edu/16292/
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Mind and Matter. In Quanta and Mind
Appleby, Marcus. 2019. Mind and Matter. In Quanta and Mind (pp. 17–29). Cham: Springer International Publishing. https://doi.org/10.1007/978...
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Quantum Information Versus Epistemic Logic: An Analysis of the Frauchiger–Renner Theorem
Boge, Florian J. 2019. Quantum Information Versus Epistemic Logic: An Analysis of the Frauchiger–Renner Theorem. Foundations of Physics, 49(...
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Sturm-Schrödinger equations: formula for metric
M Znojil and HB Geyer. 2009. Sturm-Schrödinger equations: formula for metric. Pramana, 73. pp. 299-366
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Quantum Mechanics: Fixing the Shifty Split
N David Mermin. 2012. Quantum Mechanics: Fixing the Shifty Split. Physics Today, 65 (7), pp 8–10
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Quantum-Bayesian coherence
Christopher A. Fuchs and Rüdiger Schack. 2013. Quantum-Bayesian coherence. Reviews of Modern Physics, 85, 1693-1715
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Exploring the geometry of qutrit state space using symmetric informationally complete probabilities
Gelo Noel M Tabia and DM Appleby. 2013. Exploring the geometry of qutrit state space using symmetric informationally complete probabilities....
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Physics: QBism puts the scientist back into science
N David Mermin. 2014. Physics: QBism puts the scientist back into science. Nature, 507, 421–423. doi:10.1038/507421a
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An introduction to QBism with an application to the locality of quantum mechanics
Christopher A. Fuchs, N David Mermin and Rüdiger Schack. 2014. An introduction to QBism with an application to the locality of quantum mecha...
Publication
QBism and the Greeks: Why a Quantum State Does Not Represent an Element of Physical Reality
Fuchs, Christopher A, and Rüdiger Schack. 2015. QBism and the Greeks: Why a Quantum State Does Not Represent an Element of Physical Reality....
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Higher-Order Interference and Single-System Postulates Characterizing Quantum Theory
Barnum, Howard, Markus P Müller, and Cozmin Ududec. 2014. Higher-Order Interference and Single-System Postulates Characterizing Quantum Theo...
Project
QBism, from Pragmatism to Phenomenology
QBism (pronounced cubism) is an interpretation of quantum mechanics that takes an agents actions and personal experiences as the central concerns of the theory.
Project
Participatory Realism
Recently Cabello (arXiv:1509.04711) introduced a taxonomy of quantum interpretations with regard to what they attempt to say of reality.
Project
The nature of randomness and fundamental physical limits of secrecy
People have always been fascinated by randomness and intrigued by the fundamental question – is any outcome that appears random to us only so by virtue of our ignorance, or do there exist experiments whose outcome is inherently unpredictable to any observers, no matter how powerful or omniscient they might be?
