The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry

The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry

Relativity theory assumes that force fields propagate with the speed of light. We show that such force fields generated by a single source can be described by a pre-potential, which is a complex-valued function on spacetime outside the worldline of the source. The pre-potential is invariant under a...

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Main Authors: Yaakov Friedman, David Hai Gootvilig, Tzvi Scarr
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Symmetry
Subjects:
retarded potential
whittaker scalar potential
pre-potential
lorentz invariance
spin-half representation
self-dual field
Online Access:https://www.mdpi.com/2073-8994/11/12/1430
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spelling doaj-710d0cfadd864ad1b09eeb54bcad69df2020-11-25T01:50:24ZengMDPI AGSymmetry2073-89942019-11-011112143010.3390/sym11121430sym11121430The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual SymmetryYaakov Friedman0David Hai Gootvilig1Tzvi Scarr2Extended Relativity Research Center, Departments of Mathematics and Physics, Jerusalem College of Technology, P.O. Box 16031, Jerusalem 91160, IsraelDepartment of Physics, Jerusalem College of Technology, P.O. Box 16031, Jerusalem 91160, IsraelDepartment of Mathematics, Jerusalem College of Technology, P.O. Box 16031, Jerusalem 91160, IsraelRelativity theory assumes that force fields propagate with the speed of light. We show that such force fields generated by a single source can be described by a pre-potential, which is a complex-valued function on spacetime outside the worldline of the source. The pre-potential is invariant under a spin-half representation of the Lorentz group acting on complexified spacetime. The complex four-potential of such a field is defined and calculated explicitly from the pre-potential without assuming any particular force law for the field. The real part of the obtained four-potential coincides with the known Liénard−Wiechert potential. The symmetry of the four-potential is described herein. The pre-potential satisfies the wave equation. The single source electromagnetic field derived from this four-potential is self-dual or anti-self-dual. The pre-potential and the four-potential are extended to a field with several sources.https://www.mdpi.com/2073-8994/11/12/1430retarded potentialwhittaker scalar potentialpre-potentiallorentz invariancespin-half representationself-dual field
collection DOAJ
language English
format Article
sources DOAJ
author Yaakov Friedman
David Hai Gootvilig
Tzvi Scarr
spellingShingle Yaakov Friedman
David Hai Gootvilig
Tzvi Scarr
The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
Symmetry
retarded potential
whittaker scalar potential
pre-potential
lorentz invariance
spin-half representation
self-dual field
author_facet Yaakov Friedman
David Hai Gootvilig
Tzvi Scarr
author_sort Yaakov Friedman
title The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
title_short The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
title_full The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
title_fullStr The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
title_full_unstemmed The Pre-Potential of a Field Propagating with the Speed of Light and Its Dual Symmetry
title_sort pre-potential of a field propagating with the speed of light and its dual symmetry
publisher MDPI AG
series Symmetry
issn 2073-8994
publishDate 2019-11-01
description Relativity theory assumes that force fields propagate with the speed of light. We show that such force fields generated by a single source can be described by a pre-potential, which is a complex-valued function on spacetime outside the worldline of the source. The pre-potential is invariant under a spin-half representation of the Lorentz group acting on complexified spacetime. The complex four-potential of such a field is defined and calculated explicitly from the pre-potential without assuming any particular force law for the field. The real part of the obtained four-potential coincides with the known Liénard−Wiechert potential. The symmetry of the four-potential is described herein. The pre-potential satisfies the wave equation. The single source electromagnetic field derived from this four-potential is self-dual or anti-self-dual. The pre-potential and the four-potential are extended to a field with several sources.
topic retarded potential
whittaker scalar potential
pre-potential
lorentz invariance
spin-half representation
self-dual field
url https://www.mdpi.com/2073-8994/11/12/1430
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