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The structure of the photon and the electron

According to the grid theory, our physical world exists on a grid structure. Everything that we experience is the different states of th...


According to the grid theory, our physical world exists on a grid structure. Everything that we experience is the different states of the same Planck size particles which build up the grid. The grid particles can vibrate in several degrees of freedom. The different vibration of the grid particles represents the different states of these particles. The vibrating grid particles can mutually affect each other and can create different stable structures by vibrating synchronized. Particles are the synchronized vibrations on the grid's field where the field's basic state is the desynchronized random vibration.

Photon
Considering the grid's field, a photon is a synchronized vibration of a specific number of grid's particles which vibration propagates itself on the grid's field with the field's coupling constant, the speed of light.

According to our current description of the photon, it is a wave packet of the vibrating electromagnetic field. Its energy depends on the wave's frequency. Its actual value is the wave frequency multiplied by a constant, which is the Planck's constant.

A general wave can be described by its speed, frequency or wavelength, and the wave's amplitude. Noteworthy attribution of the description of the photon as a wave, the amplitude of this wave does not count. The energy of this wave does not depend on the amplitude. However, every kind of wave has a property of amplitude, so every photon must have the same amplitude, which attribute supports the photon description as a grid field particle. Described the photon as a grid's field vibration, because the structure of the grid field and the interactions between the grid particles are fixed, and the photon is consist of a given number of synchronized grid particle, the vibration can't be on different amplitude, only on a different frequency.

On the grid's field, the synchronous vibration can't be static, it always propagates itself on a speed which is determined by a constant, which specific to the grid's field and describes the delay of an interaction between the grid's field particles.

Describing the photon as spinning grid particles, the spinning symmetry by the degree of 360 may explain the so-called spin property of the photon.

Electron
Considering the grid's field, an electron is a synchronized vibration of a specific number of grid particles on a closed-loop. The vibration cannot be static on the grid field, it propagates itself by the coupling constant, by the speed of the light, but if the vibration is on a closed-loop, the vibrating structure can be static.

According to our current view of an electron, it is a point-like particle with definite properties as mass, electrical charge, and spin. Applying the grid field view of the electron, its mass corresponds to how the closed-loop vibration distorts the structure of the grid field, it is equivalence as of its energy. The electrical charge is the manifestation of the vibration itself, and if the closed-loop vibration has a degree of 180 symmetry (as a Mobius strip has), it may be able to explain the so-called spin property of the electron as well.


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