The Duality of Time Theory, that results from the
Single Monad Model of the Cosmos, explains how multiplicity is emerging from absolute
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
General Relativity and Quantum Mechanics are complementary consequences of the Duality of Time Theory
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Most of these introductory articles are exracted from Volume I of the Single Monad Model of the Cosmos: Ibn al-Arabi's View of Time and Creation... more on this can be found here.
Mohamed Haj Yousef*
*Physics Department, United Arab Emirates University, P.O. Box 15551, Al-Ain, UAE
Single particle interference has been widely observed for both microscopic particles [1, 2], as well as macroscopic objects . Feynman already showed that such phenomena are absolutely impossible to explain in any classical way . Based on the Re-creation Principle of the Single Monad Model which was first proposed in 2005 , this article proposes a new concept of “temporal entanglement” and shows how it can be applied to explain both the normal multi-particle and this peculiar single particle interference. It is shown that in both cases one wave function describes the superposition of the two states of the two interfering particles, or waves, but in normal interference this superposition is spatial while in the second case it is temporal, i.e. the states of the two interfering particles are entangled through time. Both spatial and temporal entanglements are only possible due to the fact that both particles are always simultaneously connected through the Single Monad, which is exactly what gives them the nature of waves and uncertainty, and the very act of observation of one of them causes the collapse of the wave function, thus determining the behaviour of the second particle whether they were separated in space or in time. The temporal entanglement concept can also explain other peculiar quantum interference experiments, such as “which path” and Wheeler's delayed choice quantum eraser .
1. T. Kimura et al., Japanese Journal of Applied Physics 43.9A (2004).
2. V. Scarani and A. Suarez, Am. J. Phys. 66, 718-721 (1998).
3. Y. Couder, E. Fort, Phys. Rev. Lett. 97, 154101 (2006).
4. R. P. Feynman, The Feynman Lectures on Physics, Vol. 3; Addison-Wesley: Reading (1965), p. 1-1.
5. M. Haj Yousef, “The Concept of Time in Ibn Arabi's Cosmology and Its Implications for Modern Physics”, Exeter University (2005), also: M. Haj Yousef, “The Single Monad Model of the Cosmos”, CreateSpace (2014), p. 224.
6. T. Hellmuth et al., Physical Review A 35.6 (1987).