Abstract
In our approach we have combined knowledge of Old Masters (working in this field before the year 1905), New Masters (working in this field after the year 1905) and Dissidents under the guidance of Louis de Broglie and David Bohm. Based on the great experimental work of Robert Pound, Glen A. Rebka and J.L. Snider we have proposed a squeezing of the super-elastic double-helix photon in the gravitational field. We have newly defined the squeeze rate of that photon particle on the helical path. We have inserted this squeeze rate into the very-well old formulae of Newton, Soldner, Gerber and Einstein and might glimpse traces of the quantum gravity. The squeeze rate of photons can be studied in details using the Great instrument - the Advanced LIGO - located on the surface of the Earth (USA, Italy, Japan). The observed strains on the level 5*10-19 should be caused by the gravitational field of our Earth. The observed strains on the level 5*10-22 should be caused by the gravitational fields of the Moon and the Sun. We estimate that the experimental value of the gravitational constant G studied by the LIGO instrument can achieve the accuracy to the level of ppb (parts per billion) after the removal of those strains from the measured signal and the removal of the gravitational influences of the Earth, the Moon, the Sun, Venus and Jupiter. To study the squeeze effect on a bigger scale we propose to analyze the Pioneer anomaly where Pioneer´s photons have been flying around the planets in our Solar system causing the squeeze effect - the anomalous blueshift. Similarly, we can study cosmic microwave photons flying around the objects in our Solar system that might create “the axis of evil” - temperature fluctuations in the CMB map (Wien displacement law). Can we prepare in our Solar system “tired” light by frequent blueshift - redshift transitions? Can it be that Nature cleverly inserted the squeeze rate into our very-well known Old Formulae? We want to pass this concept into the hands of Readers of this Journal better educated in the Mathematics and Physics.
Highlights
The famous quote of Heraclitus “Nature loves to hide” was described in details by Pierre Hadot in 2008
What is the behavior of the super-elastic double-helix photon in the gravitational field? Can we describe the elasticity of this double-helix in the gravitational field?
We will try to apply this model of the squeeze rate of photons in the gravitational field into the already very-well situations and will insert this concept into the Old Formulae
Summary
The famous quote of Heraclitus “Nature loves to hide” was described in details by Pierre Hadot in 2008 Hadot in his valuable book gives us many examples how Nature protects Her Secrets. What is the behavior of the super-elastic double-helix photon in the gravitational field? In order to achieve our target, we have combined knowledge of Old Masters (working in this field before the year 1905), New Masters (working in this field after the year 1905), and Dissidents working on the double helix model of the photon for many years. We will try to apply this model of the squeeze rate of photons in the gravitational field into the already very-well situations and will insert this concept into the Old Formulae. There are several situations where we can collect experimental data with the existing most advanced technology - advanced LIGO, Pioneers missions, CMB missions to support or to reject this scenario
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