Quantum Measurement and Weak Values in Entropic Dynamics

Kevin Vanslette; Ariel Caticha

arXiv:1701.00781·quant-ph·June 28, 2017

Quantum Measurement and Weak Values in Entropic Dynamics

Kevin Vanslette, Ariel Caticha

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TL;DR

This paper explores quantum measurement processes, including weak values and wavefunction collapse, within the Entropic Dynamics framework, emphasizing Bayesian and entropic inference methods.

Contribution

It introduces a novel perspective on quantum measurement by applying entropic and Bayesian inference to weak and von Neumann measurements.

Findings

01

Weak Values interpreted as Bayesian inference results

02

Wavefunction collapse modeled through entropic inference

03

Unified framework for quantum measurement processes

Abstract

The problem of measurement in quantum mechanics is studied within the Entropic Dynamics framework. We discuss von Neumann and Weak measurements, wavefunction collapse, and Weak Values as examples of bayesian and entropic inference.

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