Mohamed El Naschie’s Revision of Albert Einstein’s <i>E = m</i><sub>0</sub><i>c</i><sup>2</sup>: A Definite Resolution of the Mystery of the Missing Dark Energy of the Cosmos

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International Journal of Modern Nonlinear Theory and Application

International Journal of Modern Nonlinear Theory and Application

International Journal of Modern Nonlinear Theory and Application

ISSN Print: 2167-9479
ISSN Online: 2167-9487
www.scirp.org/journal/ijmnta
E-mail: ijmnta@scirp.org

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"Mohamed El Naschie’s Revision of Albert Einstein’s E = m₀c²: A Definite Resolution of the Mystery of the Missing Dark Energy of the Cosmos"
written by J. H. He, L. Marek-Crnjac,
published by International Journal of Modern Nonlinear Theory and Application, Vol.2 No.1, 2013

has been cited by the following article(s):

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[1]	The hydrodynamics of quantum spacetime–The minimal essentials of a new quantum theory
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[2]	A Fundamentally Fractal Universe from Einstein, Kaluza-Klein, Witten and Vafa's Space-Time
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[3]	A fundamentally fractal universe from Einstein, Kaluza-Klein, Witten and Vafa‟ s spacetime
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[4]	El Naschie,“From Nikolay Umov= 2 E kmc via Albert Einstein's γ= 2 E mc to the dark energy density of the cosmos()= 2 21 22 E mc.”
	2018

[5]	From Nikolay Umov E=kmc2 via Albert Einstein's E=γmc2 to the Dark Energy Density of the Cosmos E=(21/22)mc2
	2018

[6]	From Nikolay Umov E= kmc2 via Albert Einstein's E= γmc2 to the Dark Energy Density of the Cosmos E=(21/22) mc2
	2018

[7]	World formula interpretation of E= mc2
	2018

[8]	Density of the Cosmos () E mc 2 21 22=
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[9]	A Combined Heterotic String and Kähler Manifold Elucidation of Ordinary Energy, Dark Matter, Olbers's Paradox and Pure Dark Energy Density of the Cosmos
	2017

[10]	Naschie: A combined Heterotic string and Kähler manifold elucidation of ordinary energy, dark matter, Olbers's paradox and pure dark energy density of …
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[11]	Kähler Dark Matter, Dark Energy Cosmic Density and Their Coupling
	2016

[12]	The Speed of the Passing of Time as Yet Another Facet of Cosmic Dark Energy
	2016

[13]	Cantorian-Fractal Kinetic Energy and Potential Energy as the Ordinary and Dark Energy Density of the Cosmos Respectively
	2016

[14]	Quantum Disentanglement as the Physics behind Dark Energy
	2016

[15]	From Kantian-Reinen Vernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach Spacetime
	2015

[16]	Hubble Scale Dark Energy Meets Nano Scale Casimir Energy and the Rational of Their T-Duality and Mirror Symmetry Equivalence
	World Journal of Nano Science and Engineering, 2015

[17]	Quantum Fractals and the Casimir-Dark Energy Duality—The Road to a Clean Quantum Energy Nano Reactor
	Journal of Modern Physics, 2015

[18]	A Resolution of the Black Hole Information Paradox via Transfinite Set Theory
	World Journal of Condensed Matter Physics, 2015

[19]	From Kantian-Reinen Fernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach …
	2015

[20]	A Complementarity Resolution of the Black Hole Information Paradox
	American Journal of Astronomy and Astrophysics, 2015

[21]	Dark energy and its cosmic density from Einstein's relativity and gauge fields renormalization leading to the possibility of a new 'tHooft quasi particle
	2015

[22]	Dark Energy and its Cosmic Density from Einstein's Relativity and Gauge Fields Renormalization Leading to the Possibility of a New'tHooft Quasi Particle
	The Open Astronomy Journal, 2015

[23]	From Kantian-Reinen Fernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach Spacetime
	Open Journal of Philosophy, 2015

[24]	Banach Spacetime-Like Dvoretzky Volume Concentration as Cosmic Holographic Dark Energy
	2015

[25]	Hardy's Entanglement as the Ultimate Explanation for the Observed Cosmic Dark Energy and Accelerated Expansion
	2014

[26]	The measure concentration of convex geometry in a quasi Banach spacetime behind the supposedly missing dark energy of the cosmos
	2014

[27]	Which are the mathematics of the M-Theory?
	2014

[28]	Naschie: From E= mc2 to E= mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[29]	From E = mc2 to E = mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[30]	From E= mc 2 to E= mc 2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	2014

[31]	Logarithmic running of 't Hooft-Polyakov monopole to dark energy
	International Journal of High Energy Physics, 2014

[32]	Pinched Material Einstein Space-Time Produces Accelerated Cosmic Expansion
	International Journal of Astronomy and Astrophysics, 2014

[33]	From E= mc2 to E= mc2/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin
	Journal of Quantum Information Science, 2014

[34]	Both particle and wave aspects are embedded in quantum objects. Can we suppress either aspect of a quantum particle?
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[35]	From Yang-Mills photon in curved spacetime to dark energy density
	Journal of Quantum Information Science, 2013

[36]	Dark energy via quantum field theory in curved spacetime
	Journal of Modern Physics and Applications, 2013

[37]	Dark energy from Kaluza-Klein spacetime and Noether's theorem via lagrangian multiplier method
	Journal of Modern Physics, 2013

[38]	A Rindler-KAM spacetime geometry and scaling the Planck scale solves quantum relativity and explains dark energy
	International Journal of Astronomy and Astrophysics, 2013

[39]	An Invitation to El Naschie's Theory of Cantorian Space-Time and Dark Energy
	International Journal of Astronomy and Astrophysics, 2013

[1]	Quantum Disentanglement as the Physics behind Dark Energy Open Journal of Microphysics, 2017 DOI:10.4236/ojm.2017.71001

[2]	A Combined Heterotic String and Kähler Manifold Elucidation of Ordinary Energy, Dark Matter, Olbers’s Paradox and Pure Dark Energy Density of the Cosmos Journal of Modern Physics, 2017 DOI:10.4236/jmp.2017.87071

[3]	Cantorian-Fractal Kinetic Energy and Potential Energy as the Ordinary and Dark Energy Density of the Cosmos Respectively Natural Science, 2016 DOI:10.4236/ns.2016.812052

[4]	Kähler Dark Matter, Dark Energy Cosmic Density and Their Coupling Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.714173

[5]	The Speed of the Passing of Time as Yet Another Facet of Cosmic Dark Energy Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.715184

[6]	Completing Einstein’s Spacetime Journal of Modern Physics, 2016 DOI:10.4236/jmp.2016.715175

[7]	Hubble Scale Dark Energy Meets Nano Scale Casimir Energy and the Rational of Their T-Duality and Mirror Symmetry Equivalence World Journal of Nano Science and Engineering, 2015 DOI:10.4236/wjnse.2015.53008

[8]	Quantum Fractals and the Casimir-Dark Energy Duality—The Road to a Clean Quantum Energy Nano Reactor Journal of Modern Physics, 2015 DOI:10.4236/jmp.2015.69137

[9]	A Resolution of the Black Hole Information Paradox via Transfinite Set Theory World Journal of Condensed Matter Physics, 2015 DOI:10.4236/wjcmp.2015.54026

[10]	From Kantian-Reinen Vernunft to the Real Dark Energy Density of the Cosmos via the Measure Concentration of Convex Geometry in Quasi Banach Spacetime Open Journal of Philosophy, 2015 DOI:10.4236/ojpp.2015.51014

[11]	Pinched Material Einstein Space-Time Produces Accelerated Cosmic Expansion International Journal of Astronomy and Astrophysics, 2014 DOI:10.4236/ijaa.2014.41009

[12]	From E = mc² to E = mc²/22—A Short Account of the Most Famous Equation in Physics and Its Hidden Quantum Entanglement Origin Journal of Quantum Information Science, 2014 DOI:10.4236/jqis.2014.44023

[13]	Dark Energy from Kaluza-Klein Spacetime and Noether’s Theorem via Lagrangian Multiplier Method Journal of Modern Physics, 2013 DOI:10.4236/jmp.2013.46103

[14]	From Yang-Mills Photon in Curved Spacetime to Dark Energy Density Journal of Quantum Information Science, 2013 DOI:10.4236/jqis.2013.34016

[15]	Quantum Gravity and Dark Energy Using Fractal Planck Scaling Journal of Modern Physics, 2013 DOI:10.4236/jmp.2013.411A1005

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