Switch to: References

Add citations

You must login to add citations.
  1. Introduction.Elay Shech & Wendy S. Parker - 2021 - Studies in History and Philosophy of Science Part A 85:30-33.
    Download  
     
    Export citation  
     
    Bookmark  
  • Quantum Bayesianism Assessed.John Earman - unknown - The Monist 102 (4):403-423.
    The idea that the quantum probabilities are best construed as the personal/subjective degrees of belief of Bayesian agents is an old one. In recent years the idea has been vigorously pursued by a group of physicists who fly the banner of quantum Bayesianism. The present paper aims to identify the prospects and problems of implementing QBism, and it critically assesses the claim that QBism provides a resolution of some of the long-standing foundations issues in quantum mechanics, including the measurement problem (...)
    Download  
     
    Export citation  
     
    Bookmark   7 citations  
  • Additivity Requirements in Classical and Quantum Probability.John Earman - unknown
    The discussion of different principles of additivity for probability functions has been largely focused on the personalist interpretation of probability. Very little attention has been given to additivity principles for physical probabilities. The form of additivity for quantum probabilities is determined by the algebra of observables that characterize a physical system and the type of quantum state that is realizable and preparable for that system. We assess arguments designed to show that only normal quantum states are realizable and preparable and, (...)
    Download  
     
    Export citation  
     
    Bookmark   6 citations  
  • Typicality and Notions of Probability in Physics.Sheldon Goldstein - 2012 - In Yemima Ben-Menahem & Meir Hemmo (eds.), Probability in Physics. Springer. pp. 59--71.
    Download  
     
    Export citation  
     
    Bookmark   43 citations  
  • Deduction and definability in infinite statistical systems.Benjamin H. Feintzeig - 2017 - Synthese 196 (5):1-31.
    Classical accounts of intertheoretic reduction involve two pieces: first, the new terms of the higher-level theory must be definable from the terms of the lower-level theory, and second, the claims of the higher-level theory must be deducible from the lower-level theory along with these definitions. The status of each of these pieces becomes controversial when the alleged reduction involves an infinite limit, as in statistical mechanics. Can one define features of or deduce the behavior of an infinite idealized system from (...)
    Download  
     
    Export citation  
     
    Bookmark   6 citations  
  • The Relation between Credence and Chance: Lewis' "Principal Principle" Is a Theorem of Quantum Probability Theory.John Earman - unknown
    David Lewis' "Principal Principle" is a purported principle of rationality connecting credence and objective chance. Almost all of the discussion of the Principal Principle in the philosophical literature assumes classical probability theory, which is unfortunate since the theory of modern physics that, arguably, speaks most clearly of objective chance is the quantum theory, and quantum probabilities are not classical probabilities. Given the generally accepted updating rule for quantum probabilities, there is a straight forward sense in which the Principal Principle is (...)
    Download  
     
    Export citation  
     
    Bookmark   1 citation  
  • The classical limit of a state on the Weyl algebra.Benjamin H. Feintzeig - unknown
    This paper considers states on the Weyl algebra of the canonical commutation relations over the phase space R^{2n}. We show that a state is regular iff its classical limit is a countably additive Borel probability measure on R^{2n}. It follows that one can "reduce" the state space of the Weyl algebra by altering the collection of quantum mechanical observables so that all states are ones whose classical limit is physical.
    Download  
     
    Export citation  
     
    Bookmark   2 citations  
  • Reductive Explanation and the Construction of Quantum Theories.Benjamin H. Feintzeig - 2022 - British Journal for the Philosophy of Science 73 (2):457-486.
    I argue that philosophical issues concerning reductive explanations help constrain the construction of quantum theories with appropriate state spaces. I illustrate this general proposal with two examples of restricting attention to physical states in quantum theories: regular states and symmetry-invariant states. 1Introduction2Background2.1 Physical states2.2 Reductive explanations3The Proposed ‘Correspondence Principle’4Example: Regularity5Example: Symmetry-Invariance6Conclusion: Heuristics and Discovery.
    Download  
     
    Export citation  
     
    Bookmark   1 citation  
  • States of ignorance and ignorance of states: Examining the Quantum Principal Principle.Alexander Meehan - 2021 - Studies in History and Philosophy of Science Part A 90 (C):160-167.
    Earman (2018) has recently argued that the Principal Principle, a principle of rationality connecting objective chance and credence, is a theorem of quantum probability theory. This paper critiques Earman's argument, while also offering a positive proposal for how to understand the status of the Principal Principle in quantum probability theory.
    Download  
     
    Export citation  
     
    Bookmark   1 citation  
  • Why be regular? Part II.Benjamin Feintzeig & James Owen Weatherall - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 65 (C):133-144.
    Download  
     
    Export citation  
     
    Bookmark   4 citations