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The New Cosmology Arising from the Quantum Pushing Gravity Interaction—The Case of Accelerating Universe

Author(s): Maurizio Michelini

Journal: Applied Physics Research
ISSN 1916-9639

Volume: 5;
Issue: 5;
Date: 2013;
Original page

In 2011 three astronomers were awarded the Nobel Prize for Physics having focussed a correct method of measuring cosmic distances by observation of far Supernovae Ia. Assuming the 'lambda’CDM expanding model, they showed that part of the Universe was accelerating, contrary to the original General Relativity predictions. The acceleration was attributed to an Obscure energy linked to the cosmological constant L. This constasnt was formerly introduced by Einstein in the original G.R. equations to empirically counterbalance the gravitational force to the aim of describing the (known) static universe. After the Hubble’s discovery (1929) of galaxy redshifts, which launched the expanding universe, Einstein rejected L. This was the sign that he considered L a provisional parameter, not the expression of a new physical force. Nevertheless, this parameter is till today taken into account by cosmologists to fit their observations through the LCDM model. Something is not consequent in the history of the Gravitational theory. The “accelerated expansion” of the universe can be firmly established only through a model independent way. In fact the SNe distances calculated by LCDM expanding model resulted so large that part of the SNe exploded before the so called Big bang Age, in contrast with the bases of the expansion. The astronomers appear reluctant to claim this splashing result. Something in the Obscure energy is not convincing. Before knowing the astronomer’s work, I carried out a research about the physical inadequacy of General Relativity as proper theory of Gravitation, notwithstanding the great success in astronomical observations. The profound reason of this inconsistency is the absence of interaction-waves, contrarily to other fundamental Interactions considered in the Standard Model. From several decades the research attempted to improve this unsatisfactory situation trying to detect the so called gravitational waves coming from cosmic events, but no tangible results have been obtained yet. Actually, the gravitational-inertial waves surely exist, as well as the measured gravitational force. The wavelength I found is of the order of the Planck’s length, so adequate tools are necessary for detection. One year ago I published a comprehensive analysis which, recognising the inadequacy of the old kinematic basis of Special relativity, gave rise (Michelini, 2012) to a Relativistic Dynamics re-founded on the new dynamical basis of the Micro-quanta paradigm. The high flux fo of micro-quanta filling the space originates, through the mutual-shielding between two particles/masses, the Quantum Pushing gravitational force, whereas at very short distances (
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