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1 - Introduction

Published online by Cambridge University Press:  24 November 2017

George Jaroszkiewicz
Affiliation:
University of Nottingham
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Summary

Motivation

The aim of this book is to introduce, develop, and apply quantized detector networks (QDN), an information-based, observer-centric approach to quantum mechanics (QM). Six reasons motivating our development of QDN are the following.

Avoidance of Metaphysical Speculation

There is such a variety of unproven (and unprovable) speculation concerning the interpretation of QM that the subject of this book, QDN, may appear at first sight to be yet another in this growing branch of metaphysics. In fact, our motivation is precisely the opposite. QDN was intended from the outset to reduce the level of metaphysics in the application of QM. To achieve this, our strategy is to move the traditional focus of attention away from systems under observation (SUOs) and toward the observers of those SUOs. In QDN, wave functions represent not states of SUOs but states of apparatus. We shall call such states labstates, to distinguish them from states of SUOs (which do have a place in QDN). It is only labstates that observers can ever deal with directly.

In this respect, QDN is an attempt at a more laboratory-based description of quantum physics than standard QM, focusing as much on how an experiment is done as on the results of that experiment. For example, instead of talking about the wave function of an electron, QDN talks about the labstate of the signal detectors that allow us to say anything about that electron in the first place. That is all, there is nothing deeper. Whether or not electrons actually “exist” is thereby relegated to an inessential metaphysical issue that we can choose to ignore.

It is important to understand what QDN does not say as much as what it does say. QDN does not say that electrons do not “exist”. QDN merely asks for an empirical definition of “existence”.

QM Is Much More Than a Calculational Device

Many physicists hold the utilitarian view that the success of quantum theory in predicting experimental data is sufficient for their purposes, and that further inquiry is really the business of metaphysics and therefore outside the scope of science proper. We cannot say that this is entirely unreasonable. However, we take the view that QM represents such a radical departure from the principles of classical mechanics (CM) that this pragmatical view cannot be all there is to the subject.

Type
Chapter
Information
Quantized Detector Networks
The Theory of Observation
, pp. 1 - 12
Publisher: Cambridge University Press
Print publication year: 2017

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  • Introduction
  • George Jaroszkiewicz, University of Nottingham
  • Book: Quantized Detector Networks
  • Online publication: 24 November 2017
  • Chapter DOI: https://doi.org/10.1017/9781316477182.002
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  • Introduction
  • George Jaroszkiewicz, University of Nottingham
  • Book: Quantized Detector Networks
  • Online publication: 24 November 2017
  • Chapter DOI: https://doi.org/10.1017/9781316477182.002
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Introduction
  • George Jaroszkiewicz, University of Nottingham
  • Book: Quantized Detector Networks
  • Online publication: 24 November 2017
  • Chapter DOI: https://doi.org/10.1017/9781316477182.002
Available formats
×