For citation:
Leonov V.S. Dynamic Leonov interferometer for detecting the field of dark
matter particles. International Conference «Process Management and Scientific Developments» Birmingham, United
Kingdom, June 9, 2020, pp. 183-192, DOI: 10.34660/INF.2020.60.43.001
Download PDF: https://drive.google.com/file/d/13rEsmk62xrxTSi0bq1SIMDBN82kladKh/view?usp=sharing
Vladimir Leonov. Dynamic Leonov
Interferometer for Detecting the Field of Dark Matter Particles.
viXra:2007.0078 submitted on 2020-07-12..
Abstract: We present the design of a Leonov dynamic
interferometer for detecting the field of dark matter particles and obtained
positive results from its testing. Unlike the Michelson interferometer, in
which the arms of the interferometer are located at an angle of 900
and rotate in a horizontal plane, in the Leonov interferometer, the shoulders
are turned in opposite directions at an angle of 1800 and the light
rays from the laser in the shoulders also move in opposite directions and
converge on the screen, forming interference fringes. In this case, the
slightest deviation of the arms of the interferometer from the horizontal leads
to a sharp shift of the interference fringes on the screen. We have given a
theoretical justification for the fact that the shift of interference fringes
is caused by the deformation (Einstein curvature) of the field of dark matter
in the field by terrestrial gravity. We have shown that the spherical field of
terrestrial gravity is formed as a result of spherical deformation of the field
of dark matter, which is a four-dimensional quantized space-time. We found that
the carrier of the field of dark matter is a four-dimensional particle - a
quantum of space-time (quanton), which has no mass but accumulates
electromagnetic energy. Quanton is the only four-dimensional particle that
combines time and space, and is the carrier of electromagnetism and gravity.
The concentration of quantons in a unit volume characterizes the quantum
density of the medium, which in accordance with the theory of Superunification
sets the speed of light in vacuum. In the Earth’s gravitational field, a field
of dark matter is deformed, which leads to a change in the quantum density of
the medium in the vertical direction (along the radius). This leads to a change
in the speed of light in the radial direction relative to the earth's
horizontal. We see this fact as a shift of interference fringes when the
shoulders of the dynamic interferometer are turned relative to the horizontal
(Leonov effect), thereby registering a change in the concentration of dark
matter particles. This experiment confirms the validity of the theory of
Superunification [1-5].
Keywords: dark matter, quanton, quantized space-time, quantum density of the
medium, speed of light, interferometer, gravity, theory of Superunification.
Photo 1, 2, 3 shows dynamic Leonov interferometer in
operation.
Photo 1 shows the horizontal position of the
interferometer (it captures the horizon of the earth’s surface itself).
Photo 2 shows the rotation of the
interferometer by an angle α to the earth's surface. The
vertical component of the speed of light is increasing with distance from the
Earth. The speed of light is decreasing towards the Earth. The speed of light
is decreasing towards the Earth as a result of spherical deformation of dark
matter, which forms the Earth's gravitational field.
Photo 3
shows the interference pattern as a result of the addition of two laser beams
in opposite directions. When the interferometer is
rotated, the vertical component of the speed of light of the laser beams
changes, which leads to a sharp shift in the interference fringes.
