Toward a more complete electrodynamic theory
2012; Inderscience Publishers; Volume: 5; Issue: 1 Linguagem: Inglês
10.1504/ijsise.2012.046745
ISSN1748-0701
Autores Tópico(s)Quantum and electron transport phenomena
ResumoNo AccessToward a more complete electrodynamic theoryL.M. Hively and G.C. GiakosL.M. Hively Computational Sciences and Engineering Division, Oak Ridge National Laboratory, 37831-6418, TN Oak Ridge, USA and G.C. Giakos Department of Electrical and Computer Engineering, The University of Akron, Akron, 44325 OH, USA Published Online:May 7, 2012pp 3-10https://doi.org/10.1504/IJSISE.2012.046745PDF ToolsAdd to FavouritesDownload CitationsTrack Citations Share this article on social mediaShareShare onFacebookTwitterLinkedInReddit AboutAbstractMaxwell's equations require a gauge condition for specific solutions. This incompleteness motivates use of a dynamical quantity, Keywordselectrodynamics, electromagnetics, LEW, longitudinal electric wave, scalar wave References 1. V. Aharonov, D. Bohm, ''Further discussion of the role of electromagnetic potentials in the quantum theory'' Phys. Rev. (1963) Google Scholar2. A.I. Arbab, Z.A. Satti, ''On the generalized Maxwell equations and their prediction of the electroscalar wave'' Prog. Phys. (2009) Google Scholar3. P. Belli, ''Charge non-conservation restrictions from the nuclear levels excitation of 129Xe induced by the electron's decay on the atomic shell'' Phys. Lett. B (1999) Google Scholar4. A.E. Danese, Advanced Calculus (1965) Google Scholar5. P.A.M. Dirac, ''Quantised singularities in the electromagnetic field'' Proc. R. Soc. London, Ser. A (1931) Google Scholar6. V.M. Dubovik, M.A. Martsenyuk, B. Saha, ''Material equations for the electromagnetism with toroidal polarizations'' Phys. Rev. E (2000) Google Scholar7. G.C. Giakos, T.K. Ishii, ''Detection of longitudinal electromagnetic fields in air'' Microwave Optical Techn. Lett. (1993) Google Scholar8. A.S. Goldhaber, M.M. Nieto, ''Photon and graviton mass limits'' Rev. Mod. Phys. (2010) Google Scholar9. D.J. Griffiths, Introduction to Classical Electrodynamics (2007) Google Scholar10. W. Heitler, The Quantum Theory of Radiation (1984) Google Scholar11. G.F. Ignatiev, V.A. Leus, A.E. Chubykalo Ed., V. Pope Ed., R. Smirnov-Rueda Ed., ''On a superluminal transmission at the phase velocities'' Instantaneous Action at a Distance in Modern Physics: 'Pro' and 'Contra' (2001) Google Scholar12. J.D. Jackson, Classical Electrodynamics (1962) Google Scholar13. J.D. Jackson, ''From Lorenz to Coulomb and other explicit gauge transformations'' Am. J. Phys. (2002) Google Scholar14. J.D. Jackson, L.B. Okun, ''Historical roots of gauge invariance'' Am. J. Phys. (2001) Google Scholar15. P. Lorrain, D.R. Corson, Electromagnetic Fields and Waves (1970) Google Scholar16. J. Luo, L-C. Tu, Z-K. Hu, E-J. Luan, ''New experimental limit on the photon rest mass with a rotating torsion balance'' Phys. Rev. Lett. (2003) Google Scholar17. J.C. Maxwell, ''A dynamical theory of the electromagnetic field'' Phil. Trans. Royal Soc. (1865) Google Scholar18. C. Monstein, J.P. Wesley, ''Observation of scalar longitudinal electrodynamic waves'' Europhys. Lett. (2002) Google Scholar19. T. Ohmura, ''A new formulation on the electromagnetic field'' Prog. Theor. Phys. (1956) Google Scholar20. L.B. Okun, ''Tests of electric charge conservation and the Pauli principle'' Sov. Phys. Usp. (1989) Google Scholar21. W.K.H. Panofsky, M. Phillips, Classical Electricity and Magnetism (1969) Google Scholar22. M. Ribaric, L. Sustersic, Conservation Laws and Open Questions of Classical Electrodynamics (1990) Google Scholar23. K.J. van Vlaenderen, A. Waser, ''Generalisation of classical electrodynamics to admit a scalar field and longitudinal waves'' Hadronic J. (2001) Google Scholar Next article FiguresReferencesRelatedDetails Volume 5Issue 12012 ISSN: 1748-0698eISSN: 1748-0701 HistoryPublished onlineMay 07, 2012 KeywordselectrodynamicselectromagneticsLEWlongitudinal electric wavescalar waveAuthors and AffiliationsL.M. Hively1 G.C. Giakos2 1. Computational Sciences and Engineering Division, Oak Ridge National Laboratory, 37831-6418, TN Oak Ridge, USA 2. Department of Electrical and Computer Engineering, The University of Akron, Akron, 44325 OH, USA PDF download
Referência(s)