The Duality of Time Theory, that results from the Single Monad Model of the Cosmos, explains how physical multiplicity is emerging from absolute (metaphysical) Oneness, at every instance of our normal time! This leads to the Ultimate Symmetry of space and its dynamic formation and breaking into the physical and psychical (supersymmetrical) creations, in orthogonal time directions. General Relativity and Quantum Mechanics are complementary consequences of the Duality of Time Theory, and all the fundamental interactions become properties of the new granular complex-time geometry, at diifferent dimensions. - => Conference Talk [Detailed Presentation]
... he outward space and ordinary time. Accordingly, as it is the case in Strings and Quantum field theories, vacuum or empty space is the ground state, while other particles are various excited ...
... not explain it in any philosophical sense. Later developments in elementary particles and field theories showed that particles move in “the Higgs field” and may interact with it. As a re ...
... not explain it in any philosophical sense. Later developments in elementary particles and field theories showed that particles move in “the Higgs field” and may interact with it. As a re ...
... ctions as soon as we dive into their microscopic level, as it is now confirmed by Quantum field theories. In the Duality of Time Theory , since rigid space is created sequentially in the inn ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... l ground states, and not their collective summation as it is currently treated in quantum field theories. This key insight provides the ultimate solution to the vacuum catastrophe or the cos ...
... bert action. This allowed for easy unification of General Relativity with other classical field theories, such as Maxwell’s theory of Electromagnetism, which are also formulated in terms o ...
... e the average, rather than the collective summation as it is currently treated in quantum field theories. The remaining small discrepancy could be also settled based on the new structure of ...
... ntal scalar quantum field that has been observed in nature, but there are other effective field theories that describe various physical phenomena. Indeed, some cosmological models have alrea ...
... imaginary. Nevertheless, this concept is still essential in current cosmology and quantum field theories, since it is employed by Feynman’s path integral formulation, and it is the only wa ...
... han the density of vacuum energy, the Planck density, that can be calculated from Quantum field theories. This is known as the problem of smallness. Moreover, being so small, why it just hap ...
... a natural non-linear generalization of Maxwell’s equations. The most important Quantum field theories describing elementary particles are gauge theories formulated in terms of a principal ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... : SUPER SYMMETRY II.1 Symmetry and Quantum Mechanics II.1.1 Gauge Symmetry II.1.2 Quantum field theories II.1.3 The Fundamental Interactions II.1.4 Spontaneous Symmetry Breaking II.1.5 Higgs ...
... ysics theories, including General Relativity and some fundamental calculations in Quantum field theories. Read Other Books: The Single Monad Model of the Cosmos: Ibn Ara ...
... Quantum Field Theory that lead to the Standard Model of elementary particles. All quantum field theories, such as Quantum Electrodynamics (QED) and Quantum Chromodynamics (QCD), are based on ...
... l Relativity with Quantum Mechanics and lead to the development of some effective quantum field theories, such as QED and QCD, it is expected that the new genuinely-complex momentum and ener ...
... world becomes rather than as it is normally treated in Relativity and Quantum field theories. For this reason, as we shall show in Chapter III, General Relativity is a sufficient ...
... ry and Lie algebra, which play essential roles in the mathematical formulation of Quantum field theories. The forms of the fundamental quantum operators, such as energy, as a partial time de ...
... s, such as charges, energies, and velocities, can be precisely measured and evaluated. In field theories, different configurations of the un-observable fields can result in identical observa ...
... lex-Time and Quantum Gravity by Mohamed Haj Yousef Search Inside this Book II.1.2 Quantum field theories In trying to merge Quantum Mechanics with Special Relativity, Klein-Gordon and Dirac ...
... ntal scalar quantum field that has been observed in nature, but there are other effective field theories that describe various physical phenomena. Indeed, some cosmological models have alrea ...
... struction of the Standard Model proceeds following the modern method of constructing most field theories: by first postulating a set of symmetries of the system, and then by writing down the ...
... re a natural non-linear generalization of Maxwell s equations. The most important Quantum field theories describing elementary particles are gauge theories formulated in terms of a principal ...
... r algebra paved the way for obtaining a very large and important class of super symmetric field theories. Traditional symmetries of physics are generated by objects that transform by the ten ...
... nd independent, while both aim to overcome the non-re-normalizable divergences of Quantum field theories. Loop Quantum Gravity never introduces a background and excitations living on this ba ...
... bert action. This allowed for easy unification of General Relativity with other classical field theories, such as Maxwell s theory of Electromagnetism, which are also formulated in terms of ...
... ics. For example, the concept of aether is being revisited after it was proved in Quantum field theories that vacuum cannot be empty, and physicists are now considering the existence of quin ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... that is the initial assumption of most physics theories including Relativity and Quantum field theories. The Duality of Time Theory , that results from the Single Monad Model , explains how ...
... between physical particles and absolute homogeneous Euclidean space, via four distintive levels of symmetry, in addition to original level of absolute Oneness. Preview on Google Books ...
... between physical particles and absolute homogeneous Euclidean space, via four distintive levels of symmetry, in addition to original level of absolute Oneness. Preview on Google Books ...
I have no doubt that this is the most significant discovery in the history of mathematics, physics and philosophy, ever!
By revealing the mystery of the connection between discreteness and contintuity, this novel understanding of the complex (time-time) geometry, will cause a paradigm shift in our knowledge of the fundamental nature of the cosmos and its corporeal and incorporeal structures.
Enjoy reading...
Mohamed Haj Yousef
Check this detailed video presentation on "Deriving the Principles of Special, General and Quantum Relativity Based on the Single Monad Model Cosmos and Duality of Time Theory".
Download the Book "DOT: The Duality of Time Postulate and Its Consequences on General Relativity and Quantum Mechanics" or: READ ONLINE .....>>>>