# Entropic Dynamics: A hybrid-contextual theory of Quantum Mechanics

**Authors:** Kevin Vanslette

arXiv: 1704.01571 · 2017-12-05

## TL;DR

This paper proposes a hybrid-contextual interpretation of quantum mechanics within Entropic Dynamics, where position is non-contextual and other observables are contextual, derived using Bayesian probability and consistent with foundational theorems.

## Contribution

It introduces a novel hybrid-contextual model of QM based on Entropic Dynamics, integrating Bayesian inference with the Bell-KS theorem.

## Key findings

- Position is non-contextual in the model
- Other observables are contextual
- Model aligns with Bell-KS theorem and QM

## Abstract

The Bell-KS theorem and the more recent $\psi$-epistemic \emph{no-go} theorems of QM are discussed in the context of Entropic Dynamics. In doing so we find that the Bell-KS theorem allows for, a perhaps overlooked, hybrid-contextual model of QM in which one set of commuting observables (position in this case) is non-contextual and all other observables are contextual. Entropic Dynamics is in a unique position as compared to other foundational theories of QM because it derives QM using standard techniques in Bayesian probability theory. In this formalism, position is the preferred basis from which inferences about other contextual operators are made. This leads to the interpretation that Entropic Dynamics is a hybrid-contextual model of QM, which we show to be consistent with the Bell-KS theorem and QM.

## Full text

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## References

28 references — full list in the complete paper: https://tomesphere.com/paper/1704.01571/full.md

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Source: https://tomesphere.com/paper/1704.01571