A Flux of Micro Quanta Explains Relativistic Mechanics and the Gravitational Interaction

Details A Flux of Micro Quanta Explains Relativistic Mechanics and the Gravitational Interaction A Flux of Micro Quanta Explains Relativistic Mechanics and the Gravitational Interaction

Apr 2007

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007apei...14...65m&link_type=abstract

Apeiron, vol. 14, numb. 2, p. 65-94

Other

Vacuum Energy Density, Cosmic Quanta, Relativistic Mechanics, Intertial Forces, Gravitational Mass Paradigm, Gravity Factor, Obscure Galactic Supermasses

Scientific paper

In the proposed paradigm the space is filled with a very high flux Phi_0 of very small quanta whose wavelength lambda_0 results equal to the Planck's length. Since their energy E_0=h_0 nu_0 is very small, the relevant quantum constant h_0 is enormously smaller than the usual Planck's constant. Any particle shows a little Compton's cross section sigma_i=A_0 m_i proportional to its mass, so these quanta freely travel in space along large distances (cosmic quanta). Colliding with matter the quanta impose the principles of conservation of energy and momentum, as well as the laws of relativistic mechanics and related inertial forces. The strong equivalence principle, in the version stating that both inertia and gravitation come from a single phenomenon, becomes the relevant test to verify the physical reality of the cosmic quanta i.e. their capacity to explain the gravitational interaction. The quanta colliding with two masses give up a little momentum (E_0-E_1)/c which produces a newtonian force pushing the masses each towards the other. The quantity G=K_0 Phi_0 E_0 A_0^2/4 pi c depends on the quanta characteristics, so the Newton's gravitational mass no longer holds. However the most interesting feature is that the new gravitational force depends also on the quantum energy. For instance a mass facing a very dense star, where the quanta n collisions, receives weakened quanta of energy E_n > (E_0- E_1)/c. This fact increases the newtonian G by the gravity factor (n/a)>= 1 depending on the star mass and density. For instance the gravity factor reaches numbers of 200-300 in the case of neutron stars, incrementing notably their accretion capacity. This property may explain, in particular, the mystery of the obscure galactic supermassive bodies whose gravitational effects have been observed to rise up to 3.7x10^6 times the Sun effects. Current gravitational theories are unable to give a convincing explanation of this phenomenon.

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