Classical representations for quantum-like systems through an axiomatics for context dependence
摘要
We introduce a definition for a 'hidden measurement system', i.e., a physical entity for which there exist: (i) 'a set of non-contextual states of the entity under study' and (ii) 'a set of states of the measurement context', and which are such that all uncertainties are due to a lack of knowledge on the actual state of the measurement context. First we identify an explicit criterion that enables us to verify whether a given hidden measurement system is a representation of a given couple consisting of a set of states and a set of measurements ( measurement system). Then we prove for every measurement system that there exists at least one representation as a hidden measurement system with as set of states of the measurement context. Thus, we can apply this definition of a hidden measurement system to impose an axiomatics for context dependence. We show that in this way we always find classical representations (hidden measurement representations) for general non-classical entities (e.g. quantum entities).
引用
@article{arxiv.quant-ph/0008061,
title = {Classical representations for quantum-like systems through an axiomatics for context dependence},
author = {Bob Coecke},
journal= {arXiv preprint arXiv:quant-ph/0008061},
year = {2007}
}
备注
15 pages