Measurement Method of Graviton Velocity and Thought on Correcting Lorentz Transformation——The Superluminal Neutrino’s Influence on Special Relativity and Other Physical Theories
Ping’an Luo
Beijing, China.
DOI: 10.4236/jmp.2012.34042   PDF   HTML     7,885 Downloads   11,614 Views   Citations

Abstract

After discovery of the superluminal particle and consideration on development of contemporary physical theory research, also on the existing errors and omissions, the principle of constant light speed is found not a necessary condition in derivation of Lorentz Transformation; instead, this thesis proposes the velocity of graviton may feature superluminal, constant velocity in different directions, and independence of inertial reference frame speeds. This is an optional thought of correction. According serial hypothesis, an equation of graviton’s motion trace, i.e., the central curve of nebula density, is established for spiral galaxy. Thus we gain the method to measure velocity of graviton. If to totally avoid problem of limit speed, we have to search for independent of inertia frames, and relevant to space-time properties. Regarding current difficulties of singular points in the Theory of Limited Universe, this thesis points out that the document [1] is the best solution to these difficulties.

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P. Luo, "Measurement Method of Graviton Velocity and Thought on Correcting Lorentz Transformation——The Superluminal Neutrino’s Influence on Special Relativity and Other Physical Theories," Journal of Modern Physics, Vol. 3 No. 4, 2012, pp. 297-303. doi: 10.4236/jmp.2012.34042.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] P. A. Luo, “Derivation of Universal Gravitation on Basis of Microphysics,” Matter Regularity, Vol. 11, No. 46, 2011, pp. 20-30.
[2] T. Adam, N. Agafonova, et al., “Measurement of Neutrino Velocity with the OPERA Detector in the CNGS Beam,” http://arxiv.org/abs/1109.4897, 2011.
[3] G. Brumfiel, “Particles Break Light-Speed Limit,” 2011. http://www.nature.com/news/2011/110922/full/news.2011.554.html
[4] A. Einstein, “Relativity the Special and the General Theory,” Methuen & Co. Ltd., London, 1955.
[5] P. A. Luo, “Evaluation Standard for Schools or Theories,” 2011. http://blog.sina.com.cn/s/blog_4bd628330100uze0.html
[6] G. J. Ni and H. F. Li, “Modern Physics,” Shanghai Science and Technology Publisher, Shanghai, 1979, pp. 38- 43.
[7] “Hadron—Physics Term.” http://baike.baidu.com/view/2380.htm

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