The Hawking paradox: how Hawking-radiation cannot interact.

Why, Hawking radiation can escape from the black holes? 

All objects in the universe carry information. The information is the object itself. One of the objects is wave movement itself. And the existence of an object requires that it involves information. The Hawking paradox is that the Black Hole sends radiation that would not carry information. 

Or otherways saying, Hawking radiation might have so a high energy level that it denies interaction between other radiation types. In that model Hawking radiation form is a very small photons that we can call "Hawking photons". Those photons could push all other quantum fields. Including gravitational waves away from them. 

The paradox is that the radiation itself is information. There is nothing that will not contain information. Because if something doesn't carry information or a form of information does not exist. And if Hawking radiation doesn't involve information. That means it doesn't exist. 

So, what if Hawking radiation is non-thermic radiation? The fact is that the thermal effect forms when a particle or superstring of the wave movement strikes the other object. The thermal effect that we see is the result of energy-type chancing. 

The information is one form of energy and when energy impacts to object that thing turns kinetic energy into thermal energy. Let me explain the last sentence. The energy is a movement that is forming of particles called photons. Photons have particle and wave movement. The wave movement form of the photon is like a small flat spaghetti that travels through the universe. 

An interesting thing about the energy is when the particle travels through space The reason why low-energy photon transfers more energy to an object than high-energy photon is that the high-energy photon is wave movement or otherways saying the photon is flat. High-energy photon pushes quantum fields away from their route. And that means it transfers less energy to the object than a low-energy photon. 

Low energy photon is like a ball that interacts with other quantum fields stronger than a high-energy photon. The impact area of low-energy photons is larger than low-energy photons. And during that impact kinetic energy stored in photon releases in larger areas. Photon gets that energy when it travels through the quantum fields in the universe. 

And that causes an idea that Hawking radiation is so high energy photon or wave movement that it pushes all energy and gravitational waves away from it. That means there is no touch with Hawking radiation and other quantum fields. That explains why Hawking radiation can escape from the black hole. 

So maybe the form of Hawking radiation is just different than other radiation. Maybe, Hawking radiation forms from stretched and pike-form photons. When the black hole's energy fields impact those photons. That fell through the event horizon. They starting to act like the antenna. There is a possibility. That there is a small moment when part of the photon is inside the event horizon. And another part of it is outside the event horizon. 

There is a possibility that Hawking radiation is some kind of sub-photonic maser-emission. When a photon falls through the event horizon. It turns to pike-looking. The radiation that hits this particle makes it act like an antenna that sends radiation. If the source of Hawking radiation is the photons that send it. That means the wavelength of that radiation is very short. 

And that radiation explains why objects turn smaller before they impact the black hole. The reason for that is Hawking radiation or "Hawking photons" which blows quantum fields away from the particles. The Hawking radiation acts like the wind. That comes out from the black hole. When it impacts material, it takes part of its energy out from it. 

Another version of the source of Hawking radiation is the superpositioned and entangled particle pair. If things like photons are making superposition and quantum entanglement they can transport energy out from the black hole. 

At that point where the photon is between two worlds, the photon starts to conduct energy out from the black hole. In the place of a photon could be an electron or superstring. There is a possibility that the pike-form particles can send radiation, also from inside the event horizon. The idea of Hawking radiation is that it's radiation. That comes out from black holes. That radiation causes the vaporization of the black holes. 

The reason why black hole doesn't follow the models that computers made is that. They are so dense and extreme objects. Hawking radiation is radiation with a unique wavelength. But the Hawking radiation will not stop its journey at the edge of the black hole. And that means the universe is full of Hawking radiation that interacts like all other radiation. There are maser emissions in that radiation and that increases its power. That thing means that there are standing Hawking radiation waves in the universe. 

https://www.sciencedirect.com/science/article/pii/S0370269323001545

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