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  1. Inter-Theory Relations in Physics: Case Studies from Quantum Mechanics and Quantum Field Theory.Joshua Rosaler - unknown
    I defend three general claims concerning inter-theoretic reduction in physics. First, the popular notion that a superseded theory in physics is generally a simple limit of the theory that supersedes it paints an oversimplified picture of reductive relations in physics. Second, where reduction specifically between two dynamical systems models of a single system is concerned, reduction requires the existence of a particular sort of function from the state space of the low-level model to that of the high-level model that approximately (...)
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  • Trajectory Interpretation of Correspondence Principle: Solution of Nodal Issue.Ciann-Dong Yang & Shiang-Yi Han - 2020 - Foundations of Physics 50 (9):960-976.
    The correspondence principle states that the quantum system will approach the classical system in high quantum numbers. Indeed, the average of the quantum probability density distribution reflects a classical-like distribution. However, the probability of finding a particle at the node of the wave function is zero. This condition is recognized as the nodal issue. In this paper, we propose a solution for this issue by means of complex quantum random trajectories, which are obtained by solving the stochastic differential equation derived (...)
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  • Bohmian Classical Limit in Bounded Regions.Davide Romano - 2016 - In Felline Laura & L. Felline A. Paoli F. Ledda E. Rossanese (eds.), New Directions in Logic and the Philosophy of Science (SILFS proceedings, vol. 3). College Publications. pp. 303-317.
    Bohmian mechanics is a realistic interpretation of quantum theory. It shares the same ontology of classical mechanics: particles following continuous trajectories in space through time. For this ontological continuity, it seems to be a good candidate for recovering the classical limit of quantum theory. Indeed, in a Bohmian framework, the issue of the classical limit reduces to showing how classical trajectories can emerge from Bohmian ones, under specific classicality assumptions. In this paper, we shall focus on a technical problem that (...)
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  • Bohmian Mechanics, the Quantum-Classical Correspondence and the Classical Limit: The Case of the Square Billiard. [REVIEW]A. Matzkin - 2009 - Foundations of Physics 39 (8):903-920.
    Square billiards are quantum systems complying with the dynamical quantum-classical correspondence. Hence an initially localized wavefunction launched along a classical periodic orbit evolves along that orbit, the spreading of the quantum amplitude being controlled by the spread of the corresponding classical statistical distribution. We investigate wavepacket dynamics and compute the corresponding de Broglie-Bohm trajectories in the quantum square billiard. We also determine the trajectories and statistical distribution dynamics for the equivalent classical billiard. Individual Bohmian trajectories follow the streamlines of the (...)
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  • Is de Broglie-Bohm Theory Specially Equipped to Recover Classical Behavior?Joshua Rosaler - 2015 - Philosophy of Science 82 (5):1175-1187.
    Supporters of the de Broglie-Bohm interpretation of quantum theory argue that because the theory, like classical mechanics, concerns the motions of point particles in 3D space, it is specially suited to recover classical behavior. I offer a novel account of classicality in dBB theory, if only to show that such an account falls out almost trivially from results developed in the largely interpretation-neutral context of decoherence theory. I then argue that this undermines any special claim that dBB theory is purported (...)
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  • (1 other version)Classical and Bohmian trajectories in semiclassical systems: Mismatch in dynamics, mismatch in reality?Alexandre Matzkin & Vanessa Nurock - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (1):17-40.
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  • Private Information and the 'Information Function': A Survey of Possible Uses. [REVIEW]Emmanuel Haven - 2008 - Theory and Decision 64 (2-3):193-228.
    Under certain conditions private information can be a source of trade. Arbitrage for instance can occur as a result of the existence of private information. In this paper we want to explicitly model information. To do so we define an ‘information function’. This information function is a mathematical object, also known as a so called ‘wave function’. We use the definition of wave function as it is used in quantum mechanics and we attempt to show the usefulness of this wave (...)
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  • Are Bohmian trajectories real? On the dynamical mismatch between de broglie-Bohm and classical dynamics in semiclassical systems.A. Matzkin & V. Nurock - unknown
    The de Broglie-Bohm interpretation of quantum mechanics aims to give a realist description of quantum phenomena in terms of the motion of point-like particles following well-defined trajectories. This work is concerned by the de Broglie-Bohm account of the properties of semiclassical systems. Semiclassical systems are quantum systems that display the manifestation of classical trajectories: the wavefunction and the observable properties of such systems depend on the trajectories of the classical counterpart of the quantum system. For example the quantum properties have (...)
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