DOI: 10.14704/nq.2018.16.4.1221

Euclidean-Planck Metrics of Space, Particle Physics and Cosmology

Amrit Sorli, Uros Dobnikar, Santanu Kumar Patro, Magi Mageshwaran, Davide Fiscaletti

Abstract


Recent research has introduced a novel model where a fundamental arena of the universe is infinite Euclidean space of Planck metrics, where time is merely mathematical parameter of universal changes. The history of the universe has merely a mathematical existence and is nonexistent in the physical sense. On the other hand, the future is not yet existent. The only existent physical reality is the universe, which exists in the timeless space of Euclidean-Planck metrics. This view is the basis of an “Energy-Mass-gravity” Model that unifies energy, mass, and gravity. Additionally, this model reveals some discrepancies in the Big Bang cosmology model that need to be examined in details in order to keep the Big Bang cosmology as the leading model of today’s physics.

Keywords


Euclidean space, Planck units, energy, mass, gravity, cosmology, gravitational constant G.

Full Text:

PDF

References


Anderson J.D., Schubert G., Trimble V. and Feldman M.R.,. Measurements of Newton's gravitational constant and the length of day, Vol. 110, Num.1, EPL, (2015)

Ashby N. Relativity in the global positioning system. Living Reviews in relativity 2003; 6(1):1.

Carr Bernard, Ellis Geoge, Universe or multiverse? Astronomy & Geophysics, Volume 49, Issue 2, 1 April 2008, Pages 2.29–2.33

CERN,Supersymmetry, https://home.cern/about/physics/supersymmetry (2018).

Cortês M, Liddle AR, Parkinson D. Tensors, BICEP2 results, prior dependence, and dust. Physical Review D. 2015; 92(6):063511.

Cho Adrian, Sparks Fly Over Shoestring Test Of ‘Holographic Principle’, Science (2012). Vol. 336, Issue 6078, pp. 147-149

Einstein A. Does the inertia of a body depend upon its energy-content. Annalen der Physik 1905; 18:639-41.

Fiscaletti D. About dark energy and dark matter in a three-dimensional quantum vacuum model. Foundations of Physics 2016; 46(10):1307-40.

Fiscaletti D. Sorli A. Space-time curvature of general relativity and energy density of a three-dimensional quantum vacuum. Annales UMCS Sectio AAA: Physics 2015;69(1): 53-81.

Friedlander MW. A thin cosmic rain: Particles from outer space, Harvard: Harvard University Press, 2002.

Gilloch JM, McCrea WH. The relativistic mass of a rotating cylinder. InMathematical Proceedings of the Cambridge Philosophical Society. Cambridge University Press, 1951; 47(1):190-95.

Haramein Nassim, Quntum gravity and the hologrpahic mass, Physical Review & Research International 3(4): 270-292. (2013)

Laszlo E. Science and the Reenchantment of the Cosmos: The Rise of the Integral Vision of Reality, Simon and Schuster, 2006

NASA https://map.gsfc.nasa.gov/universe/uni_shape.html (2014)

Santos E. Space-time curvature induced by quantum vacuum fluctuations as an alternative to dark energy. International Journal of Theoretical Physics 2011; 50(7):2125-33.

Santos E. Dark energy as space-time curvature induced by quantum vacuum fluctuations. Astrophysics and Space Science 2011; 332(2):423-35.

Sorli A, Dobnikar U, Fiscaletti D, Kaufman S. Advanced Relativity for the Renaissance of Cosmology and Evolution of Life. NeuroQuantology 2017a; 15(4): 37-44

Sorli A, Patro SK, Patra RN. Relativistic Rate of Clocks and Stability of the Gravitational Constant G. International Journal for Research in Applied Science & Engineering Technology 2018; 6 (I): 799-804.

Sorli A, Kaufman S. The Epistemological Crisis in Modern Physics. NeuroQuntology 2018; 16(2): 1-5.

Sorli A, Dobnikar U, Fiscaletti D, Koroli V. Advanced relativity: multidimensionality of consciousness and mind, origin of life, psi phenomena. NeuroQuntology, 2017b, 15(2): 109-117.


Supporting Agencies

Foundation of Physics Institute, FOPI, Slovenia



| NeuroScience + QuantumPhysics> NeuroQuantology :: Copyright 2001-2018