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Based onthe space spherical symmetry of 3-dimensional and the translational symmetry oftime and the uncertainty principle, a 4-dimensional space-time cylinder modelof quarks and leptons is established. With this model, equations of the specialrelativity can be extended more perfectly, thereby achieving a unity of thespecial relativity and quantum mechanics in deeper level. New equations can notonly interpret issues explained by old equations but also solve severalimportant pending problems. For example, a formula to strictly calculate the coefficient ξ of Lorentz invariance violation LIVis derived, to above 4 × 1019 eV UHECR protons the calculated |ξ| < 4.5 × 10-30, althoughthere is the LIV effect it is too weak to change the GZK cutoff, which isconsistent with observations of HiRes and Auger; Also, a relation formulabetween the Hubble constant and several basic constants is derived, thustheoretically calculated H0 = 70.937 km·s-1·Mpc-1, which is well consistent with thefinal observation result of HST Key Project. In addition, an unusual effectpredicted by new equations can be experimentally tested in the electron storagering; a preliminary experiment result has hinted its signs of existence.

KEYWORDS

Special Relativity, Uncertainty Principle, Cylinder Model with Intrinsic 4-Dimensional Space-Time of Quarks-Leptons, Lorentz Invariance Violation, GZK Cutoff of UHECR, Planck Energy, Hubble Constant, Super-High Energy Electron, Electron Storage Ring

Cite this paper

Qian, D. 2014 A New Version of Special Relativity Absorbed the Uncertainty Principle: Its Content as Well as Application and Experimental Test. Journal of Modern Physics, 5, 1146-1166. doi: 10.4236-jmp.2014.512117.





Author: Dapeng Qian

Source: http://www.scirp.org/



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