Quantum mechanics as a deterministic theory of a continuum of worlds

Boström, Kim Joris

doi:10.1007/s40509-015-0046-6

Cited by 15 publications

(21 citation statements)

References 50 publications

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“…These parallel lives models can be seen as a type of local fluid dynamics model, reminiscent of Madelung [25], where the fluid carries probability amplitudes and parallel lives, and obeys a continuity relation. The streamlines of this model will be like Bohmian trajectories (see also [26]), all representing parallel lives of the system, but without any need of a nonlocal interaction. It also seems likely that this will be the quasi-continuum limit, or fluid-like limit, of the Many-Interacting-Worlds-type models of Poirier et al [27] and Wiseman et al [28], which is to say that they will reduce to local fluid-like dynamical models, in which the parallel lives mechanism described above resolves any Bell-type nonlocality involving multiple entangled systems.…”

Section: Discussionmentioning

confidence: 99%

Locally causal and deterministic interpretations of quantum mechanics: parallel lives and cosmic inflation

Waegell

2017

Quantum Stud.: Math. Found.

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Several locally deterministic interpretations of quantum mechanics are presented and reviewed. The fundamental differences between these interpretations are made transparent by explicitly showing what information is carried locally by each physical system in an idealized experimental test of Bell's theorem. This also shows how each of these models can be locally causal and deterministic. First, a model is presented which avoids Bell's arguments through the assumption that space-time inflated from an initial singularity, which encapsulates the entire past light cone of every event in the universe. From this assumption, it is shown how quantum mechanics can produce locally consistent reality by choosing one of many possible futures at the time of the singularity. Secondly, we review and expand the Parallel Lives interpretation of Brassard and Raymond-Robichaud, which maintains local causality and determinism by abandoning the strictest notion of realism. Finally, the two ideas are combined, resulting in a parallel lives model in which lives branch apart earlier, under the assumption of a single unified interaction history. The physical content of weak values within each model is discussed, along with related philosophical issues concerning free will.

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Section: Discussionmentioning

confidence: 99%

Locally causal and deterministic interpretations of quantum mechanics: parallel lives and cosmic inflation

Waegell

2017

Quantum Stud.: Math. Found.

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“…To get started on such an endeavor, we must ask what replaces the wave function over particle configurations as a (perhaps only partial) representation of the physical state. One option is to stick with a wave 52 Similar approaches are discussed in [122][123][124][125][126]. 53 It would be unwise to assign each electron a smaller charge so that the total electron charge (across all worlds) for the helium atom is what you'd expect, −2e.…”

Section: Quantum Field Theorymentioning

confidence: 99%

Electron Charge Density: A Clue from Quantum Chemistry for Quantum Foundations

Sebens

2021

Found Phys

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Within quantum chemistry, the electron clouds that surround nuclei in atoms and molecules are sometimes treated as clouds of probability and sometimes as clouds of charge. These two roles, tracing back to Schrödinger and Born, are in tension with one another but are not incompatible. Schrödinger's idea that the nucleus of an atom is surrounded by a spread-out electron charge density is supported by a variety of evidence from quantum chemistry, including two methods that are used to determine atomic and molecular structure: the Hartree-Fock method and density functional theory. Taking this evidence as a clue to the foundations of quantum physics, Schrödinger's electron charge density can be incorporated into many different interpretations of quantum mechanics (and extensions of such interpretations to quantum field theory).

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“…By doing that we surely pervade the original all-is-unitary approach proposed by Everett. Initially, such a modification was suggested by Deutsch in 1985 [42] and it has be more lengthy developed in the recent years by Tipler [43,44], Valentini [38], p. 510 and many others [45][46][47] (with different subtle differences) forming what we could call a 'many-Bohmian' path interpretation (even though doing an emphasis on the de Broglie-Bohm mechanics is not necessary for developing such kinds of modified MWI). In those theories the system is following a well defined path or trajectory which could be deterministic (in agreement with Bohm's hidden-variables approach) or stochastic depending of the model considered.…”

Section: Many-bohmian Paths?mentioning

confidence: 99%

Making sense of Born’s rule $$p_\alpha =\Vert \varPsi _\alpha \Vert ^2$$ with the many-minds interpretation

Drezet

2021

Quantum Stud.: Math. Found.

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This work is an attempt to justify Born's rule within the framework of the many-worlds interpretation proposed by Everett. Here, we develop a unitary model of many-minds based on the work of Albert and Loewer (Synthese 77, 195 (1988)). At the difference of the model of Albert and Loewer ours is not genuinely stochastic and dualistic and also involves some classicallike randomness based on ignorance about initial conditions of the Universe. We also compare the present method for recovering Born's rule with previous works based on Decision theory a la Deutsch Wallace and envariance a la Zurek and found that all these approaches are strongly related to each other.

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Quantum mechanics as a deterministic theory of a continuum of worlds

Cited by 15 publications

References 50 publications

Locally causal and deterministic interpretations of quantum mechanics: parallel lives and cosmic inflation

Locally causal and deterministic interpretations of quantum mechanics: parallel lives and cosmic inflation

Electron Charge Density: A Clue from Quantum Chemistry for Quantum Foundations

Making sense of Born’s rule $$p_\alpha =\Vert \varPsi _\alpha \Vert ^2$$ with the many-minds interpretation

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