IJSTR

International Journal of Scientific & Technology Research

Home About Us Scope Editorial Board Blog/Latest News Contact Us
0.2
2019CiteScore
 
10th percentile
Powered by  Scopus
Scopus coverage:
Nov 2018 to May 2020

CALL FOR PAPERS
AUTHORS
DOWNLOADS
CONTACT

IJSTR >> Volume 4 - Issue 12, December 2015 Edition



International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616



Tachyons And Modern Physics

[Full Text]

 

AUTHOR(S)

Francisco Martínez Flores

 

KEYWORDS

 

ABSTRACT

ABSTRACT: We have carried out an exhaustive analysis of the scope of Relativity, showing that it is possible to couple it with Quantum Theory, but not with Classical Mechanics In order to do that, we have introduced the concept of electromagnetic and virtual mass to all particles subjected to Quantum Field Theory, radically different from the real or inertial mass included in Newtonian Dynamics, which turns out the adequate status to understand quantum phenomena without resorting to explanations difficult to admit. In that line we have considered the particles so-called Tachyon, for which we made a reformulation of the relativistic equation avoiding the space-like or negative interval (non-causal); thus, it has been demonstrated its identification with antiparticles, on account of the peculiar behavior of energy and momentum regarding the particles and photons.

 

REFERENCES

[1] N.R.Hanson: “The concept of the Positron. Cambridge Univ. Press. (1963).

[2] I.Kaplan: “Física Nuclear”. Edit Aguilar (1970).

[3] E. Segré: “Núcleos y partículas”. Editorial Reverté. (1972)

[4] Einstein,Lorentz,: “The Principle of Relativity”. Dover Publications. Inc. (1952).

[5] G.L.Wick: “Elementary Particles”. Open Library of Science. (1972).

[6] H.Muirhead: “Elementary Particle Physics”. Pergamo Press. (1972).

[7] P.Roman: “Advanced Quantum Theory”. Addison-Wesley. (1965)

[8] A. Messiah: “Mecánica Cuántica”. Editorial Tecnos. (1965).

[9] P.A.M.Dirac: “Principios de Mecánica Cuántica”. Ediciones Ariel.(1958).

[10] M. Kaku: “Quantum Field Theory”. Oxford University Press. (1993).

[11] R.F.Mohapatra: “Unification and Supersymmetry”. Springer. (2002).

[12] Panofsky-Phillips: “Classical Electricity and Magnetism”. Addison-Wesley (1964).

[13] D. Möller: “The Theory of Relativity”. Oxford Univ. Press. (1972).

[14] A.A.Sokolov,..: “Electrodinamica cuántica”. Editorial Mir. Mosc. (1989).

[15] E.Mach: “Desarrollo histórico crítico de la Mecánica”. Espasa-Calpe (1949).

[16] M. Born: “Einstein’s Theory of Relativity”. Dover Publications. (1962).

[17] H. Goldstein: “Mecánica Clásica”. Edit. Aguilar. (1963).

[18] Ta-Pei Cheng: “Gauge theory of elementary particles”. Oxford Science Pub. (1996).

[19] Landau: “Teoría Clásica de los Campos” Editorial Reverté. (1966).

[20] E.Feynman: “Lectures ond Physics. Addison-Wesley Publishing. (1969).

[21] R.Gauthier: “The Dirac equation on the superluminal electron model” (2009).

[22] A. Guay: “Geometrical aspects of local gauge symmetry”. Pittburg. (2004).

[23] C.Quigg: “Spontaneous Symmetry breaking as a Basis of particle mass. Fermilab.(2007).

[24] J.AGowan: “General Systems and Unified Fiel Theory” Cornell. (2006)

[25] E.T Jaynes: “Scattering of light by free electrons”. Whasington Univ. (1996).

[26] E.T.Jaynes: Probability in Quantum Theory”. Washubgton Univ. (1996).

[27] A.Einstein: “El significado de la Relatividad”. Espasa-Calpe. (1984).

[28] M.A.Pomerantz: “Cosmic Rays”. Van Nostrand Reinhold Co. (1971).

[29] Alonso-Finn: “Física”. Aguilar Ediciones. (1971).

[30] J.G.Taylor: “La nueva Física”. Alianza Editorial. (1974).

[31] P.Mittelstaedt: “Problema filosóficos de la Física Moderna”. Edit.Alhambra. (1969).

[32] A. Mercier: “Analitical Canonical Formalism in Physics”. Dover. (1958).

[33] A.Lichnerowicz: “Elementos de Cálculo Tensorial”. Aguilar. (1965).

[34] L. Jánossy: “Theory of Relativity based on physical reality. Ak.Kiadó.Budapest.(1971).

[35] H.T.Flint: “Wave Mechanics”. Science paperback.

[36] W.Heisenberg: “The physical principles of Quantum Theory”. Dover Publications.(1949).

[37] A.Landé: “Nuevos fundamentos de la mecánica cuántica”. Edit. Tecnos. (1968).

[38] R. Saumells: “Fundamentos de Matemática y Física”. Ediciones Rialp. (1965)