Abstract
Starting from the so-called “blue clearing” phenomenon, this paper establishes a link between disturbances of the Martian gravitational potential, the Allais effect of syzygy, astral influences and the Raman Stokes effect. This phenomenon is apparently peculiar to the Martian atmosphere. Photographs of Mars taken in blue light normally show only the atmosphere itself and clouds high above the surface. On occasion of oppositions, however, blue photographs will penetrate in varying degrees to the surface of Mars. Curiously, a burst of brightness and storms then occur on Mars. The atmosphere and clouds can be seen and photographed at short wavelengths by Earth-based telescopes equipped with a Wratten 47 filter. It happens that the blue screen of the filter suddenly begins to disappear and that the Martian surface becomes visible. The exact mechanism that produces blue clearing when Earth is between the Sun and Mars is highly speculative. We believe that the “Allais syzygy effect” may explain this phenomenon. The opposition would generate a “gravito-electromagnetic tension”, which would spawn fluctuations in the gravitational potential of Mars, accompanied and linked to an electromagnetic effect. The outcome would be to trigger dust storms and exacerbate a disorderly excitement of molecules in the atmosphere. The thermal agitation facilitates the absorption of energy and the formation of small condensations that cause light scattering. Assuming that the Martian gravity decreased slightly, a Stokes Raman scattering would manifest at intramolecular level of the Martian atmosphere: the emitted photon has a lower energy than the absorbed photon. Therefore, it is mainly the waves corresponding to the spectral regions yellow, orange or red that are diffused, what eliminates short wavelengths. We deduce that the size of the inhomogeneities resulting from thermal excitation turns out to be greater than the length of the light waves of blue or purple regions of the spectrum.
Highlights
Mars, the first outer planet, possesses an orbit bigger than that of the Earth
We provide some precisions on the astral influences and the Allais syzygy effect
Allais effect and Stokes Raman effect of the atmosphere of Mars We assume that the gravitational potential of Mars varies when the Earth is between the Sun and Mars, what would have the effect of triggering dust storms, heavy atmospheric variations and cloud formations, which are related to the time of these oppositions
Summary
The first outer planet, possesses an orbit bigger than that of the Earth. Every two years, the celestial body becomes very brilliant and its apparent diameter is widely up to 10 arcseconds, and may even reach the exceptional value of 25 arcseconds. It has been suggested that dust clouds may form above light regions because of an increase in the general circulation of the Martian atmosphere This suggestion was confirmed in 1975 and led to a link between the appearance of these clouds and the intensity of blue clearing. We assume that when the Earth is between the Sun and Mars, the Allais effect (including syzygy and eclipse) causes fluctuations in the gravitational potential of Mars, what would be at the origin of the storms of dust and the blue clearing. The last section takes us back to the hypothesis of the Allais syzygy effect: the effect would cause fluctuations in the gravitational potential of Mars, what would explain the blue clearing seen from Earth and the Stokes Raman effect of Martian atmosphere
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
