- New
-
Topics
- All Categories
- Metaphysics and Epistemology
- Value Theory
- Science, Logic, and Mathematics
- Science, Logic, and Mathematics
- Logic and Philosophy of Logic
- Philosophy of Biology
- Philosophy of Cognitive Science
- Philosophy of Computing and Information
- Philosophy of Mathematics
- Philosophy of Physical Science
- Philosophy of Social Science
- Philosophy of Probability
- General Philosophy of Science
- Philosophy of Science, Misc
- History of Western Philosophy
- Philosophical Traditions
- Philosophy, Misc
- Other Academic Areas
- Journals
- Submit material
- More
The Charge–Mass–Spin Relation of Clifford Polyparticles, Kerr–Newman Black Holes and the Fine Structure Constant
Foundations of Physics 34 (7):1091-1113 (2004)
Abstract
A Clifford-algebraic interpretation is proposed of the charge, mass, spin relationship found recently by Cooperstock and Faraoini, which was based on the Kerr–Newman metric solutions of the Einstein–Maxwell equations. The components of the polymomentum associated with a Clifford polyparticle in four dimensions provide for such a charge, mass, spin relationship without the problems encountered in Kaluza–Klein compactifications which furnish an unphysically large value for the electron charge. A physical reasoning behind such charge, mass, spin relationship is provided, followed by a discussion on the geometrical derivation of the fine structure constant by Wyler, Smith, Gonzalez-Martin and Smilga. To finalize, the renormalization of electric charge is discussed and some remarks are made pertaining the modifications of the charge–scale relationship, when the spin of the polyparticle changes with scale, that may cast some light into the alleged Astrophysical variations of the fine structure constant.Links
PhilArchive
External links
(no proxy)
Setup an account with your affiliations in order to access resources via your University's proxy server
Through your library
- Sign in / register and customize your OpenURL resolver
- Configure custom resolver
My notes
Similar books and articles
Discrete Spectra of Charged Black Holes.Andrei Barvinsky, Saurya Das & Gabor Kunstatter - 2002 - Foundations of Physics 32 (12):1851-1862.
Cosmic intelligence and Black holes.Vladimir A. Lefebvre & Yuri N. Efremov - 2008 - World Futures 64 (8):563 – 576.
A twist in the geometry of rotating Black holes: Seeking the cause of acausality.Christian Wüthrich, Hajnal Andréka & István Németi - manuscript
Pauli-Dirac matrix generators of Clifford Algebras.Charles P. Poole & Horacio A. Farach - 1982 - Foundations of Physics 12 (7):719-738.
Clifford Algebras and the Dirac-Bohm Quantum Hamilton-Jacobi Equation.B. J. Hiley & R. E. Callaghan - 2012 - Foundations of Physics 42 (1):192-208.
Charge, Geometry, and Effective Mass in the Kerr-Newman Solution to the Einstein Field Equations.Gerald E. Marsh - 2008 - Foundations of Physics 38 (10):959-968.
On Clifford representation of Hopf algebras and fierz identities.Suemi Rodríguez-Romo - 1996 - Foundations of Physics 26 (11):1457-1468.
Fundamental Nature of the Fine-Structure Constant.Michael A. Sherbon - 2014 - International Journal of Physical Research 2 (1):1-9.
Analytics
Added to PP
2014-01-19
Downloads
33 (#483,942)
6 months
5 (#637,009)
2014-01-19
Downloads
33 (#483,942)
6 months
5 (#637,009)
Historical graph of downloads
Citations of this work
The Extended Relativity Theory in Born-Clifford Phase Spaces with a Lower and Upper Length Scales and Clifford Group Geometric Unification.Carlos Castro - 2005 - Foundations of Physics 35 (6):971-1041.
PhilPapers logo by Andrea Andrews and Meghan Driscoll.
This site uses cookies and Google Analytics (see our terms & conditions for details regarding the privacy implications). Use of this site is subject to terms & conditions.
All rights reserved by The PhilPapers Foundation
Server: philpapers-web-64dd777598-b9rvg uwo