PAPER 2024

general / Uncategorized

 

The Gravity Field: In the Origin of Matter and Almost Everywhere Else

 

Abstract

In this work, we suggest that an imaginary mass field (or the orthogonal field) is what creates gravity, through a process similar to that which appeared in our previous works [O. Flomenbom, The process of gravity, Rep. Adv. Phys. Sci.6 (2022) 2250003; Quantum mechanics and gravity resonance together, Rep. Adv. Phys. Sci.8 (2024) 2471001]. The imaginary mass has a signal faster than light speed c, scaling numerically as ∼

, influencing the real space through the creation of gravitational waves; surrounding real mass or real energy as photons, giving photons their velocity of the speed light, and giving mass to all other particles. The gravitational waves propagate faster than the speed of light, yet the digesting velocity of the real matter “above” is the speed of light (meaning for example that all the planets in the solar system feel changes in the sun’s gravity at the same instant, and this is a fraction of a second after it occurred). When there are no particles or energy “above” this field, it can generate real gravitational sieves, that upon colliding create a cascade resulting in a big bang; therefore this description can also answer what will happen at the end, in addition to the beginning. The imaginary field particles vibrate in the imaginary mass space, and therefore do not absorb radiation photons of the real space, so do not cool down the real environment. The field is like a fluid and can change density depending on the real mass “above” it, where its particles’ size scales are 10 m. Einstein spacetime equations represent the dynamics of this fluid like imaginary mass field, in particular when interacting with real mass or energy through the gravitational waves. Among the extraordinaire capabilities of this simple description: (1) replacing the Higgs field and mechanism; (2) generating dark energy and dark matter, (3) explaining spacetime microscopically and connecting spacetime to quantum mechanics; therefore forming the theory of everything. (4) creating a big bang, therefore also the origin of matter (the dynamics before the big bang), (5) connecting the speed of light to the gravity constant and other constants, (6) solving questions about time travel: within this approach, we can view the past and visit the present time of distant planets, (7) designing anti-gravity technologies and others.

 

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