IJMNTA  Vol.3 No.1 , March 2014
Calculating the Exact Experimental Density of the Dark Energy in the Cosmos Assuming a Fractal Speed of Light
ABSTRACT

Fractal speed of light theory is a variation of Magueijo-Smolin varying speed of light (VSL) theoretical modification of Einstein’s energy mass relation. We use this theory to derive an exact value for the missing dark energy which is found to be in astonishing agreement with the latest result of the WMAP measurement and the independent supernova analysis. Thus while Einstein’s formula predicts 95.5% more energy than found in highly precise astrophysical measurement, our VSL- based calculation indicates an exact theoretical value of only 4.508497% real energy. Consequently, the exact conjectured missing dark energy must be 95.491502%. By any standards, this is an astounding confirmation for both the cosmological measurement and the VSL theory.


Cite this paper
Naschie, M. (2014) Calculating the Exact Experimental Density of the Dark Energy in the Cosmos Assuming a Fractal Speed of Light. International Journal of Modern Nonlinear Theory and Application, 3, 1-5. doi: 10.4236/ijmnta.2014.31001.
References
[1]   Amendola, L. and Tsujikawa, S. (2010) Dark Energy: Theory and Observations. Cambridge University Press, Cambridge. http://dx.doi.org/10.1017/CBO9780511750823

[2]   Baryshev, Y. and Teerikorpi, P. (2002) Discovery of Cosmic Fractals. World Scientific, Singapore.

[3]   Nottale, L. (2011) Scale Relativity. Imperial College Press, London.

[4]   Ord, G. (1983) Fractal Space-Time: A Geometric Analogue of Relativistic Quantum Mechanics. Journal of Physics A: Mathematical and General, 16, 1869. http://dx.doi.org/10.1088/0305-4470/16/9/012

[5]   El Naschie, M.S. (2011) Quantum Entanglement as a Consequence of a Cantorian Micro Spacetime Geometry. Journal of Quantum Information Science, 1, 50-53. http://www.SCRIP.org/journal/jqis
http://dx.doi.org/10.4236/jqis.2011.12007


[6]   He, J.-H., et al. (2011) Quantum Golden Mean Entanglement Test as the Signature of the Fractality of Micro Spacetime. Nonlinear Science Letters B, 1, 45-50.

[7]   El Naschie, M.S. (2009) The Theory of Cantorian Spacetime and High Energy Particle Physics (An Informal Review). Chaos, Solitons & Fractals, 41, 2635-2646. http://dx.doi.org/10.1016/j.chaos.2008.09.059

[8]   El Naschie, M.S. (2004) A Review of E-Infinity Theory and the Mass Spectrum of High Energy Particle Physics. Chaos, Solitons & Fractals, 19, 209-236. http://dx.doi.org/10.1016/S0960-0779(03)00278-9

[9]   Magueijo, J. and Smolin, L. (2002) Lorentz Invariance with an Invariant Energy Scale. Physical Review Letters, 88, Article ID:190403.

[10]   Magueijo, J. (2003) Faster than the Speed of Light. William Heinemann, London.

[11]   El Naschie, M.S. (2006) On an Eleven Dimensional E-Infinity Fractal Spacetime Theory. International Journal of Nonlinear Sciences and Numerical Simulation, 7, 407-409.

[12]   El Naschie, M.S. (2006) The “Discrete” Charm of Certain Eleven Dimensional Spacetime Theory. International Journal of Nonlinear Sciences and Numerical Simulation, 7, 477-481.

[13]   Duff, M. (1999) The World in Eleven Dimensions. IOP Publishing Ltd., Bristol.

[14]   Yau, S.T. and Nadis, S. (2010) The Shape of Inner Space. Basic Book, Persens Group, New York.

[15]   Randal, L. (2005) Warped Passages. Allen Lane-Penguin Books, London.

[16]   Penrose, R. (2004) The Road to Reality. Jonathan Cape, London.

[17]   Becker, K., Becker, M. and Schwarz, J. (2007) String Theory and M-Theory. Cambridge University Press, Cambridge.

[18]   Schwarz, P.M. and Schwarz, J.H. (2004) Special Relativity from Einstein to Strings. Cambridge University Press, Cambridge.

[19]   Hardy, L. (1993) Nonlocality of Two Particles without Inequalities for almost All Entangled States. Physical Review Letters, 71, 1665-1668.

[20]   Bengtsson, I. and Zyczkowski, K. (2008) Geometry of Quantum States. Cambridge University Press, Cambridge.

[21]   El Naschie, M.S. (2013) What Is the Missing Dark Energy in a Nutshell and the Hawking-Hartle Quantum Wave Collapse. International Journal of Astronomy and Astrophysics, 3, 205-211.

[22]   Marek Crnjac, L. and El Naschie, M.S. (2013) Quantum Gravity and Dark Energy Using Fractal Planck Scaling. Journal of Modern Physics, 4, 31-38.

[23]   Helal, M.A., Marek-Crnjac, L. and He. J.-H. (2013) The Three Page Guide to the Most Important Results of M. S. El Naschie’s Research in E-Infinity Quantum Physics and Cosmology. Open Journal of Microphysics, 3, 141-145.

[24]   El Naschie, M.S. (2007) From Symmetry to Particles. Chaos, Solitons & Fractals, 427-430.
http://dx.doi.org/10.1016/j.chaos.2006.09.016

[25]   El Naschie, M.S. (2013) A Unified Newtonian-Relativistic Quantum Resolution of the Supposedly Missing Dark Energy of the Cosmos and the Constancy of the Speed of Light. International Journal of Modern Nonlinear Theory and Application, 43-54.

[26]   El Naschie, M.S. (2013) Using Varying Speed of Light Theory to Elucidate and Calculate the Exact Experimental Percentage of the Dark Energy in the Cosmos. Fractal Spacetime and Noncommutative Geometry in Quantum and High Energy Physics, 3, 35-38.

[27]   He, J.-H. and Marek-Crnjac, L. (2013) The Quintessence of El Naschie’s Theory of Fractal Relativity and Dark Energy. Fractal Spacetime and Noncommutative Geometry in Quantum and High Energy Physics, 3, 130-137.

[28]   Marek-Crnjac, L. and He. J. (2013) The Three Page Guide to the Most Important Results of M. S. El Naschie’s Research in E-Infinity Quantum Physics and Cosmology. International Journal of Astronomy and Astrophysics, 464-471.

[29]   El Naschie, M.S. (2013) A Rindler-KAM Spacetime Geometry and Scaling the Planck Scale Solves Quantum Relativity and Explains Dark Energy. International Journal of Astronomy and Astrophysics, 483-493.

[30]   El Naschie, M.S. (2013) Electromagnetic and Gravitational Origin of Dark Energy in Kaluza-Klein D = 5 Spacetime. PIERS Proceeding, Stockholm, Sweden, 91-97.

 
 
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