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Time Dimension and Ordinary Cosmic Energy Density Are Fractal Effects

Time Dimension and Ordinary Cosmic Energy Density Are Fractal Effects

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摘要 In a short, neat and credible analysis, it is established that time is a fractal effect of the Cantor set-like topology of micro spacetime. This effect as well as the ordinary cosmic energy density of the universe is shown to be a direct consequence of Hardy’s probability of quantum entanglement. Finally and as a general conclusion, we point out the importance of understanding the fractal origin of time as well as spacetime for resolving certain types of paradoxes arising in quantum information science. In a short, neat and credible analysis, it is established that time is a fractal effect of the Cantor set-like topology of micro spacetime. This effect as well as the ordinary cosmic energy density of the universe is shown to be a direct consequence of Hardy’s probability of quantum entanglement. Finally and as a general conclusion, we point out the importance of understanding the fractal origin of time as well as spacetime for resolving certain types of paradoxes arising in quantum information science.

作者 Mohamed S. El Naschie

机构地区 Dept. of Physics

出处《Journal of Quantum Information Science》 2018年第2期47-51,共5页 量子信息科学期刊（英文）

关键词 Random CANTOR Sets E-INFINITY EINSTEIN SPACETIME Cantorian SPACETIME Penrose Universe 'thooft Renormalon Dark ENERGY Ordinary ENERGY Density Correlation Hardy’s Quantum Entanglement Random Cantor Sets E-Infinity Einstein Spacetime Cantorian Spacetime Penrose Universe ‘thooft Renormalon Dark Energy Ordinary Energy Density Correlation Hardy’s Quantum Entanglement

分类号 O1 [理学—基础数学]

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参考文献3

1Mohamed S. El Naschie.From a Dual Einstein-Kaluza Spacetime to ‘tHooft Renormalon and the Reality of Accelerated Cosmic Expansion[J].Journal of Modern Physics,2017,8(8):1319-1329. 被引量：4
2Mohamed S. El Naschie.Einstein-Kaluza Combined Spacetime as the Optimal and Simplest Framework to Compute and Understand Dark Matter, Pure Dark Energy and Measurable Ordinary Energy[J].Natural Science,2017,9(8):241-244. 被引量：5
3Mohamed S. El Naschie.Kähler Dark Matter, Dark Energy Cosmic Density and Their Coupling[J].Journal of Modern Physics,2016,7(14):1953-1962. 被引量：2

二级参考文献4

1Mohamed S. El Naschie.High Energy Physics and Cosmology as Computation[J].American Journal of Computational Mathematics,2016,6(3):185-199. 被引量：3
2Mohamed S. El Naschie.Einstein’s Dark Energy via Similarity Equivalence, ‘tHooft Dimensional Regularization and Lie Symmetry Groups[J].International Journal of Astronomy and Astrophysics,2016,6(1):56-81. 被引量：4
3Mohamed S. El Naschie.On a Fractal Version of Witten’s M-Theory[J].International Journal of Astronomy and Astrophysics,2016,6(2):135-144. 被引量：12
4M. S. El Naschie.Completing Einstein’s Spacetime[J].Journal of Modern Physics,2016,7(15):1972-1994. 被引量：3

共引文献5

1Mohamed S. El Naschie.Quantum Disentanglement as the Physics behind Dark Energy[J].Open Journal of Microphysics,2017,7(1):1-27.
2Mohamed S.El Naschie.From Nikolay Umov E=kmc^(2) via Albert Einstein’s E=γmc^(2) to the Dark Energy Density of the Cosmos E=(21 22)mc^(2)[J].World Journal of Mechanics,2018,8(4):73-81.
3Mohamed S. El Naschie.The Aether of Spacetime Physics Is the Empty Set of Pure Mathematics[J].Natural Science,2017,9(9):289-292. 被引量：1
4Mohamed S. El Naschie.Spacetime as a New Frontier Advanced Material with Applications in Physics, Engineering, Chemistry and Cosmology[J].Advances in Materials Physics and Chemistry,2017,7(9):347-352.
5Mohamed S. El Naschie.NASA’s EM Drive Thrust from the Forces of the Quantum Vacuum of Spacetime[J].Advances in Aerospace Science and Technology,2018,3(1):1-9.

1Mohamed S. El Naschie.Quantum Entanglement as a Consequence of a Cantorian Micro Spacetime Geometry[J].Journal of Quantum Information Science,2011,1(2):50-53. 被引量：1
2L. Marek-Crnjac1], M. S. El Naschie2].Chaotic Fractal Tiling for the Missing Dark Energy and Veneziano Model[J].Applied Mathematics,2013,4(11):22-29. 被引量：1
3Siva Prasad Kodukula.Values of Siva’s Constant “<i>K</i>” for All Fundamental Forces—A Review on Spin, Threshold Time and Quantum Entanglement[J].Journal of Modern Physics,2019,10(4):466-476. 被引量：2
4Rauf Kamilu,Omolehin Joseph Olorunju,Sanusi Olatoye Akeem.On Some Integral Inequalities of Hardy-Type Operators[J].Advances in Pure Mathematics,2013,3(7):609-614.
5M. A. Helal,L. Marek-Crnjac,Ji-Huan He.The Three Page Guide to the Most Important Results of M. S. El Naschie’s Research in E-Infinity Quantum Physics and Cosmology[J].Open Journal of Microphysics,2013,3(4):141-145. 被引量：24
6Elio B. Porcelli,Victo S. Filho.Induction of Forces at Distance Performed by Piezoelectric Materials[J].Journal of Power and Energy Engineering,2018,6(1):33-50. 被引量：1
7V Konushko.Lorentz’s Transformations and Gravitation in the Granular Space Theory[J].Journal of Modern Physics,2011,2(6):431-446.
8LI Xi.Some Applications of Lawvere’s Fixpoint Theorem[J].Frontiers of Philosophy in China,2019,14(3):490-510.
9Eli Peter Manor.Gravity and Quark Velocity Entanglement[J].Journal of Modern Physics,2015,6(13):1852-1855.
10A. N. Morozov.Review of the Book “Causality and Reversibility in Irreversible Time”[J].Journal of Modern Physics,2012,3(3):215-216.

Journal of Quantum Information Science

2018年第2期

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