Einstein's mistake.
Photon is not a quantum of light, but a quantum of color
If a ray of light is passed through a glass prism, then we get a set of color rays.
And in reality, these rays are what we call daylight or sunlight.
Thus, light is a set of multi-colored photons. And the photon itself is a quantum of one or another color.
According to our hypothesis, electromagnetic waves are waves formed by electrons and positrons that have electrical and magnetic components formed by gravitons (magnetic dipoles), which are polarized by charges.
Yellow gravitons, attracted to the torus (blue), form an electric field.
Red gravitons, attracted to the central graviton, form a magnetic field.
The vectors of the electric and magnetic fields are perpendicular both to each other and to the direction of propagation of the wave.
Electrons and positrons are formed when the central graviton on which a charge appears is surrounded by a torus. The axis of rotation of the torus passes through the poles of the graviton, and the outer part of its shell rotates, either from the north pole of the graviton to the south pole, or vice versa, generating by its rotation either an electron charge or a positron charge.
In addition to the circumferential rotation, the torus rotates as a wheel. The energy of this rotation generates this or that color of the electromagnetic spectrum.
Both the graviton and the torus are microscopic vortices of the ether. The relic radiation generates these vortices.
The toroids located inside the electrons and positrons, we called photons.
By the way, scientists from the University of Washington created a high-speed camera capable of photonizing photons. The photograph shows a toroidal model of a photon.
Photons emitted by electrons and positrons remain at the same wavelength as during radiation.
Free photons, unlike electrons and positrons, have neither electric nor magnetic components and therefore do not have the ability to organize themselves into electro ...
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