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Bibliographic Details
Main Authors: Amblard, Arnaud, Drezet, Aurélien
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.17507
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author Amblard, Arnaud
Drezet, Aurélien
author_facet Amblard, Arnaud
Drezet, Aurélien
contents Relativistic extensions of de Broglie-Bohm theory postulate a preferred foliation of space-time, an additional structure essential for defining simultaneous configurations on Minkowski space-time, but conventionally believed to be empirically undetectable at quantum equilibrium. In this paper, we outline an experimental protocol for empirically detecting the preferred foliation, which is assumed to be flat for simplicity. Building on the arrival-time distributions for spin-1/2 particles predicted by Das and Dürr, we show that in an EPRB-type experiment with spacelike-separated spin and arrival-time measurements, the observed arrival-time statistics will depend crucially on the temporal order of these measurements relative to the preferred foliation of space-time. This dependence offers a potential experimental signature of the preferred foliation postulated by relativistic Bohmian models. Moreover, it implies the possibility of superluminal signaling.
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Arrival-time distributions as a probe of the preferred foliation in relativistic Bohmian mechanics
Amblard, Arnaud
Drezet, Aurélien
Quantum Physics
Relativistic extensions of de Broglie-Bohm theory postulate a preferred foliation of space-time, an additional structure essential for defining simultaneous configurations on Minkowski space-time, but conventionally believed to be empirically undetectable at quantum equilibrium. In this paper, we outline an experimental protocol for empirically detecting the preferred foliation, which is assumed to be flat for simplicity. Building on the arrival-time distributions for spin-1/2 particles predicted by Das and Dürr, we show that in an EPRB-type experiment with spacelike-separated spin and arrival-time measurements, the observed arrival-time statistics will depend crucially on the temporal order of these measurements relative to the preferred foliation of space-time. This dependence offers a potential experimental signature of the preferred foliation postulated by relativistic Bohmian models. Moreover, it implies the possibility of superluminal signaling.
title Arrival-time distributions as a probe of the preferred foliation in relativistic Bohmian mechanics
topic Quantum Physics
url https://arxiv.org/abs/2604.17507