A couple of words about photons

The photon is the particle of light. Or actually, the photon is particle and wave movement at the same time. The thing that the light is a particle and wave movement caused an idea about wave-particle duality. The idea is that all material is wave movement and particles at the same time. So when I'm writing about photon as a particle I mean also the wave movement form of that particle.

The speed of the photon is always top. Nothing can reach its speed, and that means its fastest known particles. There is no time at the "surface of the photon" and the thing that makes it interesting is that photon has no mass. But photon has an energy load which means it can transmit or carry energy between two objects.

Without that energy, the laser would not work. The thing that makes photons special is that they don't have mass. But if a particle would not have mass it should not have the ability to transport energy. But a photon is transporting energy. And we must just ask if the form of the photon is so complicated that the researchers just cannot measure its mass?

If the photon is the quantum-size black hole. There is the possibility that the hypothetical graviton and photon are the same particle. The reason is that the photon itself doesn't have measured mass but it can increase the energy level of other particles and objects. So that means the photon could itself be the missing transportation particle of gravitation. When the energy level of the object is rising. That causes that the mass of the object is also rising.

Sometimes is introduced ideas the photon is the wave movement or particle. That is jumping inside the quantum field. So is photon the quantum-size black hole which energy field is pushing energy outside stronger than gravitation would pull the radiation inside?

If the size of the radiation bubble around the black hole is larger than the gravitational pulling radius. That means the black hole turns pushing. This thing is possible if the pushing effect of the radiation of the black hole is higher than the pulling effect of gravitation.

And that kind of thing can happen if the size of the black hole is small enough. In the case of the quantum-size or miniature black holes. Is possible that the radiation at a certain distance from the black hole would win the pulling effect of the black hole's microgravity field.

If we are thinking possibility that the photon is the black hole that pumps energy around it. There is the possibility that the quantum-size energy field is forming the core which curves the wave moves away from it. The quantum field of the particle is like a ball or regular magnetic field. But it's smaller.

So if the photon is the quantum-size black hole or graviton? That is smaller than the quark there is the possibility that the black hole is vaporizing less than in seconds. And then the own eruption energy of the quantum-size black hole forms it again. This is one of the things. That might cause that the mass of the photon is very hard to measure. In this case, the photon could be so small that it slips through quarks.

Sometimes I wrote that is the shine of the photon the reason why its mass is so difficult to notice? At the image above this text is another model of the photon. In this image, the photon is the particle that is jumping inside the quantum field. And whenever the particle or the bite of wave movement is hitting the quantum field. That thing causes that the particular point of the power field will send the energy wave. And if that thing is true the reason why the mass of the photon is unable to measure is that the photon is hovering.

That means the photon cannot interact with the measurement tools. If it would not strike the measurement tool with a straight angle. In this model, the reflection of the surface can cause the photon which hits the layer at too gentle an angle to jump away before it can transmit its energy to the layer. This thing would work if the quantum field of the photon is hairy. The hairs are the point where the particle or wave movement interacts with the quantum field that surrounds the photon.

https://www.zmescience.com/science/what-is-photon-definition-04322/amp/

https://en.wikipedia.org/wiki/Graviton

https://en.wikipedia.org/wiki/Micro_black_hole

https://en.wikipedia.org/wiki/Wave%E2%80%93particle_duality

https://en.wikipedia.org/wiki/Photon

https://en.wikipedia.org/wiki/Quantum_mechanics

Image:https://www.zmescience.com/science/what-is-photon-definition-04322/amp/

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