Michael Silberstein

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Weekly Papers on Quantum Foundations (1)

Why the Empirical Study of Non-Philosophical Expertise Does Not Undermine the Status of Philosophical Expertise 上午9:11 | Philsci-Archive: No conditions. Results ordered -Date Deposited. Bach, Theodore (2019) Why the Empirical Study of Non-Philosophical Expertise Does Not Undermine the Status of Philosophical Expertise. Erkenntnis, 86 (4). pp. 999-1023. Constructive Axiomatics in Spacetime Physics Part I: Walkthrough to the Ehlers-Pirani-Schild Axiomatisation 上午9:11… Read more →

Weekly Papers on Quantum Foundations (42)

Characterizing quantum instruments: from non-demolition measurements to quantum error correction. (arXiv:2110.06954v1 [quant-ph]) 2021年10月16日 星期六 上午11:02 | Roman Stricker, Davide Vodola, Alexander Erhard, Lukas Postler, Michael Meth, Martin Ringbauer, Philipp Schindler, Rainer Blatt, Markus Müller, Thomas Monz | quant-ph updates on arXiv.org In quantum information processing quantum operations are often processed alongside measurements which result in classical data. Due to the… Read more →

Weekly Papers on Quantum Foundations (29)

The Relativity Principle at the Foundation of Quantum Mechanics. (arXiv:2107.06942v1 [quant-ph]) 下午5:48 | W.M. Stuckey, Timothy McDevitt, Michael Silberstein | quant-ph updates on arXiv.org Quantum information theorists have created axiomatic reconstructions of quantum mechanics (QM) that are very successful at identifying precisely what distinguishes quantum probability theory from classical and more general probability theories in terms of information-theoretic principles. Herein,… Read more →

Weekly Papers on Quantum Foundations (27)

Self-testing of physical theories, or, is quantum theory optimal with respect to some information-processing task?. (arXiv:2003.00349v3 [quant-ph] UPDATED) 上午9:18 | Mirjam Weilenmann, Roger Colbeck | quant-ph updates on arXiv.org Self-testing usually refers to the task of taking a given set of observed correlations that are assumed to arise via a process that is accurately described by quantum theory, and trying… Read more →

Weekly Papers on Quantum Foundations (5)

Aharonov-Bohm effect with an effective complex-valued vector potential. (arXiv:2101.11914v1 [quant-ph]) 上午10:14 | Ismael L. Paiva, Yakir Aharonov, Jeff Tollaksen, Mordecai Waegell | quant-ph updates on arXiv.org The interaction between a quantum charge and a quantized source of a magnetic field is considered in the Aharonov-Bohm scenario. It is shown that, if the source has a relatively small uncertainty while the… Read more →

Weekly Papers on Quantum Foundations (40)

MOND vs. dark matter in light of historical parallels. (arXiv:1910.04368v1 [astro-ph.GA]) 2019年10月11日 星期五 下午8:32 | physics.hist-ph updates on arXiv.org Authors: Mordehai Milgrom MOND is a paradigm that contends to account for the mass discrepancies in the Universe without invoking `dark’ components, such as `dark matter’ and `dark energy’. It does so by supplanting Newtonian dynamics and General Relativity, departing from them… Read more →

Weekly Papers on Quantum Foundations (16)

A minisuperspace model of compact phase space gravity. (arXiv:1904.11338v1 [gr-qc])  hep-th updates on arXiv.org on 2019-4-27 12:44am GMT Authors: Danilo Artigas Guimarey, Jakub Mielczarek, Carlo Rovelli The kinematical phase space of classical gravitational field is flat (affine) and unbounded. Because of this, field variables may tend to infinity leading to appearance of singularities, which plague Einstein’s theory of gravity. The purpose of this… Read more →