University of Canterbury Home
    • Admin
    UC Research Repository
    UC Library
    JavaScript is disabled for your browser. Some features of this site may not work without it.
    View Item 
    1. UC Home
    2. Library
    3. UC Research Repository
    4. Faculty of Engineering | Te Kaupeka Pūhanga
    5. Engineering: Journal Articles
    6. View Item
    1. UC Home
    2.  > 
    3. Library
    4.  > 
    5. UC Research Repository
    6.  > 
    7. Faculty of Engineering | Te Kaupeka Pūhanga
    8.  > 
    9. Engineering: Journal Articles
    10.  > 
    11. View Item

    Towards Unification of Fundamental Interactions Using Non-Local Hidden-Variable Theory (2020)

    Thumbnail
    View/Open
    Accepted version (1.591Mb)
    Published version (7.336Mb)
    Type of Content
    Journal Article
    UC Permalink
    https://hdl.handle.net/10092/101421
    
    Publisher's DOI/URI
    http://doi.org/10.4236/jmp.2020.1110100
    
    Publisher
    Scientific Research Publishing, Inc.
    ISSN
    2153-1196
    2153-120X
    Collections
    • Engineering: Journal Articles [1535]
    Authors
    Pons DJ
    show all
    Abstract

    Problem: In principle there might be a single deeper mechanism underlying the fundamental interactions at both the extremely small scale of particles, and the large scale of gravitation. However it is unclear what form such a theory might take, as the obvious candidates have not yet been successful. Purpose: This work constructs a conceptual framework for the interactions from a non-local hidden-variable (NLHV) perspective, specifically the Cordus NLHV theory. Findings: All the interactions can be attributed to the discrete force emissions from the particle, more specifically from the different attributes thereof. Thus the electrostatic appears to arise from the direct linear effect of the discrete forces; magnetic from bending of the flux tube; gravitation from handed energisation sequence; strong from the synchronisation of emissions; and weak from rearrangement of discrete force emissions hence remanufacturing of particle identity. Originality: An explanation is provided for all the interactions based on non-local hidden-variable theory. Apart from the concept of the discrete force, and its multiple attributes, no new particles or bosons are required.

    Citation
    Pons DJ (2020). Towards Unification of Fundamental Interactions Using Non-Local Hidden-Variable Theory. Journal of Modern Physics. 11(10). 1598-1619.
    This citation is automatically generated and may be unreliable. Use as a guide only.
    Keywords
    Field; Interaction; Fundamental; Quantum
    ANZSRC Fields of Research
    51 - Physical sciences::5107 - Particle and high energy physics::510703 - Particle physics
    51 - Physical sciences::5108 - Quantum physics::510802 - Foundations of quantum mechanics
    51 - Physical sciences::5107 - Particle and high energy physics::510702 - Field theory and string theory
    Rights
    All rights reserved unless otherwise stated
    http://hdl.handle.net/10092/17651

    Related items

    Showing items related by title, author, creator and subject.

    • A Physical Explanation for Particle Spin 

      Pons DJ; Pons AD; Pons AJ (Scientific Research Publishing, Inc,, 2019)
      CONTEXT - The spin of a particle is physically manifest in multiple phenomena. For quantum mechanics (QM), spin is an intrinsic property of a point particle, but an ontological explanation is lacking. In this paper we ...
    • Motion of Particles at the Fundamental Level: NLHV Theory Predictions for a Spiral Gait Locus 

      Pons, Dirk (Scientific Research Publishing, Inc., 2021)
      Context: The existing literature on particle motion at the fundamental level is sparse. Particles, whether classical or quantum, are assumed to move with a continuous (even if uncertain) velocity. Purpose: The work ...
    • Extending the Search for Muon Neutrinos Coincident with Gamma-Ray Bursts in IceCube Data 

      Adams J (2017)
      © 2017. The American Astronomical Society. All rights reserved.. We present an all-sky search for muon neutrinos produced during the prompt γ-ray emission of 1172 gamma-ray bursts (GRBs) with the IceCube Neutrino Observatory. ...
    Advanced Search

    Browse

    All of the RepositoryCommunities & CollectionsBy Issue DateAuthorsTitlesSubjectsThesis DisciplineThis CollectionBy Issue DateAuthorsTitlesSubjectsThesis Discipline

    Statistics

    View Usage Statistics
    • SUBMISSIONS
    • Research Outputs
    • UC Theses
    • CONTACTS
    • Send Feedback
    • +64 3 369 3853
    • ucresearchrepository@canterbury.ac.nz
    • ABOUT
    • UC Research Repository Guide
    • Copyright and Disclaimer
    • SUBMISSIONS
    • Research Outputs
    • UC Theses
    • CONTACTS
    • Send Feedback
    • +64 3 369 3853
    • ucresearchrepository@canterbury.ac.nz
    • ABOUT
    • UC Research Repository Guide
    • Copyright and Disclaimer