Is Spacetime Fractal and Quantum Coherent in the Golden Mean?

Is Spacetime Fractal and Quantum Coherent in the Golden Mean?

Mae-Wan Ho

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Mohamed El Naschie

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Giuseppe Vitiello

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University of Salerno

Is Spacetime Fractal and Quantum Coherent in the Golden Mean?

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Abstract

We consider the fabric of spacetime from a wide perspective: from mathematics, quantum physics, far from equilibrium thermodynamics, biology and neurobiology. It appears likely that spacetime is fractal and quantum coherent in the golden mean. Mathematically, our fractal universe is non-differentiable and discontinuous, yet dense in the infinite dimensional spacetime. Physically, it appears to be a quantum coherent universe consisting of an infinite diversity of autonomous agents all participating in co-creating organic, fractal spacetime by their multitudinous coupled cycles of activities. Biologically, this fractal coherent spacetime is also the fabric of conscious awareness mirrored in the quantum coherent golden mean brain states.

References

90 Cites in Article

Reference Format

M Ho (2014). Golden geometry of E-infinity fractal spacetime. Story of phipart 5.
A Whitehead (1925). Science and the Modern World.
R Penrose (1099). The road to reality: a complete guide to the laws of the universe.
Wikipedia (2014). Zeno's paradoxes.
H Bergson (1916). Time and Free Will, An Essay on the Immediate Data of Consciousness.
A Whitehead (1919). Concept of Nature, Tarner Lectures delievered in Trinity College.
J Rosser (2011). Complex Evolutionary Dynamics in Urban-Regional and Ecologic-Economic Systems.
B Mandelbrot (1983). The Fractal Geometry of Nature.
E Lorenz (1963). Deterministic non-periodic ow.
E Lorenz (1993). The Essence of Chaos.
G Ord (1983). Fractal space-time: a geometric analogue of relativistic quantum mechanics.
R Feynman,A Hibbs,George Weiss (1965). <i>Quantum Mechanics and Path Integrals</i>.
L Nottale (1993). Fractal Space-Time and Microphysics: Towards a Theory of Scale Relativity.
L Nottale (2011). Scale Relativity and Fractal Space-Time, A New Approach in Unifying Relativity and Quantum Mechanics.
M El Naschie (2004). A review of E infinity theory and the mass spectrum of high energy particle physics.
M El Naschie (2009). The theory of Cantorian spacetime and high energy particle physics (an informal review).
R Mauldin,S Williams (1986). Random recursive constructions: asymptotic geometric and topological properties.
G Cantor Über unendliche, lineare Puntkmannigfaltigkeiten V.
L Marek-Crnjac (2011). The Hausdorff Dimension of the Penrose universe.
A Connes (1994). Noncommutative Geometry.
Mae-Wan Ho (1993). The Rainbow and the Worm.
W Schommers (1989). Space-time and quantum phenomena.
El Naschie,M (2011). Quantum collapse of wave interference pattern in the two-slit experiment: a set theoretical resolution.
Mohamed El Naschie (2013). Topological-Geometrical and Physical Interpretation of the Dark Energy of the Cosmos as a “Halo” Energy of the Schrödinger Quantum Wave.
M Ho (2014). Space and Time in Loop Quantum Gravity.
(2011). Our universe continually cycles through a series of 'aeons.
Eugene (2008). An introduction to KAM theory.
M Ho (2014). Golden cycles and organic spacetime.
Kolmogorov-Arnold-Moser Theorem (2014). The Kolmogorov-Arnold-Moser (KAM) Theorem.
Gary Mange (2005). The effect of mean free path on reverberation room measurement of absorption and absorption coefficients.
Arnold Tongue (2014). Unknown Title.
Nikolai Ivankov,Sergey Kuznetsov (2001). Complex periodic orbits, renormalization, and scaling for quasiperiodic golden-mean transition to chaos.
Oreste Lombardi,Margaret Lombardi (1984). The Golden Mean in the Solar System.
(2013). The Base-Phi Number System.
(2011). Is the solar system stable?.
J Sprott (2008). Honors: A tribute to Dr Edward Norten Lorenz.
Julian Sprott,Ralph Abraham (1993). Strange Attractors: Creating Patterns in Chaos.
D Viswanath (2003). Symbolic dynamics and periodic orbits of the Lorenz at tractor.
Joan Birman,R Williams (1983). Knotted periodic orbits in dynamical systems—I: Lorenz's equation.
Martin Gutzwiller (1992). Quantum Chaos.
A Selvam (2002). Cantorian fractal space-time fluctuations in turbulent fluid flows and the kinetic theory of gases.
D Kraut,Carroll Ks,D Herschlag (2003). Challenges in enzyme mechanisms and energetics.
Mae-Wan Ho (2012). LIVING RAINBOW H2O.
Mae-Wan Ho (2014). Water is the means, medium and message of life.
M Ho (2014). Illuminating water and life.
M Ho (2013). Circular thermodynamics of organisms and sustainable systems.
R Glauber (1969). Coherence and quantum detection.
George Yacoub (2014). Elucidating the metabolic pathways affected by SigU sigma factor activity in Streptomyces coelicolor.
I Prigogine (1977). Watching the daisies grow.
M Ho (2014). The story of phi part 1.
Lachrystal Ricke (2014). Chapter One: The Participatory Web and YouTube.
M Ho (2014). Watching the daisies grow.
E Celeghini,M Rasetti,G Vitiello (1992). Quantum dissipation.
Gerard Hooft (1999). Quantum gravity as a dissipative deterministic system.
Massimo Blasone,Petr Jizba,Giuseppe Vitiello (2001). Dissipation and quantization.
M Blasone,E Celeghini,P Jizba,G Vitiello (2003). Quantization, group contraction and zero point energy.
M Blasone,P Jizba,F Scardigli,G Vitiello (2009). Dissipation and quantization in composite systems.
Massimo Blasone,Petr Jizba,Giuseppe Vitiello (2011). Quantum Field Theory and Its Macroscopic Manifestations.
M Ho (2004). Science and the coming of Enlightenment.
El Naschie,M (2002). Quantum loops, wild topology and fat Cantor sets in transfinite high-energy physics.
M El Naschie (2002). Wild topology, hyperbolic geometry and fusion algebra of high energy particle physics.
El Naschie,M (2002). On the exact mass spectrum of quarks.
M El Naschie (2002). On a class of general theories for high energy particle physics.
L Marek-Crnjac (2003). The mass spectrum of high energy elementary particles via El Naschie's golden mean nested oscillators, the Dunkerly-Southwell eigenvalue theorems and KAM.
Walter Freeman (1975). Topological Properties.
Walter Freeman (2000). Neurodynamics: An Exploration in Mesoscopic Brain Dynamics.
W Freeman (2001). How Brains make up Their Minds.
H Umezawa (1993). Advanced Field Theory: Micro, Macro and Thermal Physics.
Giuseppe Vitiello (2011). Hiroomi Umezawa and Quantum Field Theory.
Freeman Origin (2004). Structure, and role of background EEG activity. Part 1. Analytic phase.
Freeman Origin (2004). Structure, and role of background EEG activity. Part 2. Analytic amplitude.
Freeman Origin (2005). Structure, and role of background EEG activity. Part 3. Neural frame classification.
W Freeman (2005). Phase transitions in the neuropercolation nodel of neural populations with mixed local and non-local interactions.
D Bassett,A Meyer-Lindenberg,S Achard,T Duke,E Bullmore (2006). Adaptive reconfiguration of fractal small-world human brain functional networks.
Walter Freeman,Brian Burke (2003). A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART IV: MULTICORTICAL PATTERNS OF AMPLITUDE MODULATION IN GAMMA EEG.
Walter Freeman,Linda Rogers (2003). A NEUROBIOLOGICAL THEORY OF MEANING IN PERCEPTION PART V: MULTICORTICAL PATTERNS OF PHASE MODULATION IN GAMMA EEG.
L Ricciardi,H Umezawa (1967). Brain and physics of many-body problems.
G Vitiello (2001). My Double Unveiled.
H Umezawa,G Vitiello (1985). Quantum Mechanics.
Giuseppe Vitiello (1995). DISSIPATION AND MEMORY CAPACITY IN THE QUANTUM BRAIN MODEL.
M Jibu,K Yasue (1995). Quantum Brain Dynamics and Consciousness.
Emilio Del Giudice,Giuliano Preparata,Giuseppe Vitiello (1988). Water as a Free Electric Dipole Laser.
D Plenz (2012). Neuronal avalanches and coherence potentials.
M Ho (2014). Golden music of the brain.
B Pletzer,H Kerschbaum,W Kliesch (2010). When frequencies never synchronize: the golden mean and the resting EEG.
A Andronov,A Vitt,S Khaikin (1966). LINEAR SYSTEMS.
G Vitiello (2014). On the isomorphism between dissipative systems, fractal selfsimilarity and electrodynamics.
Heinz-Otto Peitgen,Hartmut Jürgens,Dietmar Saupe (1986). Chaos and Fractals.
Giuseppe Vitiello (2012). Fractals, coherent states and self-similarity induced noncommutative geometry.
Giuseppe Vitiello (2012). Fractals as macroscopic manifestation of squeezed coherent states and brain dynamics.

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No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

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How to Cite This Article

Mae-Wan Ho. 2015. \u201cIs Spacetime Fractal and Quantum Coherent in the Golden Mean?\u201d. Global Journal of Science Frontier Research - A: Physics & Space Science GJSFR-A Volume 15 (GJSFR Volume 15 Issue A1): .

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GJSFR Volume 15 Issue A1
Pg. 61- 80

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Journal Specifications

Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

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GJSFR-A Classification: FOR Code: 020699, 020109

Submission ReceivedJanuary 2, 2015
Peer Review Double Blind
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Accepted January 26, 2015
Published February 7, 2015

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February 20, 2015

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Total Score: 103

Country: Italy

Subject: Global Journal of Science Frontier Research - A: Physics & Space Science

Authors: Mae-Wan Ho, Mohamed El Naschie, Giuseppe Vitiello (PhD/Dr. count: 0)

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