Abstract
The paper takes up Bell's (1987) “Everett (?) theory” and develops it further. The resulting theory is about the system of all particles in the universe, each located in ordinary, 3-dimensional space. This many-particle system as a whole performs random jumps through 3N-dimensional configuration space – hence “Tychistic Bohmian Mechanics” (TBM). The distribution of its spontaneous localisations in configuration space is given by the Born Rule probability measure for the universal wavefunction. Contra Bell, the theory is argued to satisfy the minimal desiderata for a Bohmian theory within the Primitive Ontology framework (for which we offer a metaphysically more perspicuous formulation than is customary). TBM's formalism is that of ordinary Bohmian Mechanics (BM), without the postulate of continuous particle trajectories and their deterministic dynamics. This “rump formalism” receives, however, a different interpretation. We defend TBM as an empirically adequate and coherent quantum theory. Objections voiced by Bell and Maudlin are rebutted. The “for all practical purposes”-classical, Everettian worlds (i.e. quasi-classical histories) exist sequentially in TBM (rather than simultaneously, as in the Everett interpretation). In a temporally coarse-grained sense, they quasi-persist. By contrast, the individual particles themselves cease to persist.
Highlights
The present paper advances a “minimally” Bohmian theory – Tychistic1 Bohmian Mechanics (TBM) – as both empirically and metaphysically adequate
We argue that the pertinent sense of reducibility is best understood in terms of identity, grounding or functional role
We started with a review of standard Bohmian Mechanics (BM)
Summary
The present paper advances a “minimally” Bohmian theory – Tychistic Bohmian Mechanics (TBM) – as both empirically and metaphysically adequate. It is minimally Bohmian in two senses. Rather than co-existing simultaneously as in the Everett interpretation, different worlds pop into existence sequentially: by hopping through configuration space, the universe instantiates (actualises) those structures in the wavefunction of the universe which correspond to Everettian worlds (i.e. quasi-classical histories, warranted by decoherence), see Fig. 1. The probability for those spontaneous materialisations is given by the Born Rule for the wavefunction of the universe.
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