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Can black holes be gravitational versions of photonic time crystals? 

 



"This still from the simulation shows a supermassive black hole, or quasar, surrounded by a swirling disk of material called an accretion disk. Credit: Caltech/Phil Hopkins group" (ScitechDaily, Caltech Astrophysicists Flip Black Hole Theories With Stunning New Simulations)

We can say that black holes' oscillation makes them raise the gravitational fields or gravitational waves' energy exponentially. Just like photonic time crystals raise electromagnetic radiation's energy level. 

Why are black holes black? One reason for that is the gravity field that doesn't let even light away from the black hole. The other thing is the photon whirls around the event horizon. Those high-energy photons send energy mostly into the black hole. 

There. They could accelerate at such a high speed that they could escape from that monster. That theorem base is on the idea. The laser light can push light away from its route and form a shadow. That means photons around a black hole act like laser rays that close the route of light. 

And those things deny the light from getting out even in the positions of the event horizon. Gravitation is wave movement. Just like electromagnetic waves. That means the crossing gravitational field, or gravitational waves can close the route of gravitational waves that cross their way. And that cuts the gravitational waves route. Just like crossing laser ray cuts the visible light's route. 

That means there could be a so-called gravitational tornado and the extremely thin channel that gravitational waves or fields cannot fill. The gravitational waves should make a similar shadow between the observer and the gravitational center as the laser makes between a light object and the observer. 


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Black holes are like the gravitational version of photonic time crystals. 

The black hole interacts in a similar way as photonic time crystals. The oscillations of photonic time crystals can raise the power of visible light waves exponentially. In the same way, black hole oscillation increases gravitational waves and the gravitational field's power. 

The difference is that photonic time crystals raise the visible light waves and other electromagnetic radiation power. The black hole raises the gravitational wave power. The wavelength is the thing. That differs the electromagnetic waves from gravitational waves. 


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"Researchers showed that a laser beam can sometimes act like a solid object and cast a shadow that is visible to the naked eye. In the picture, the shadow appears as the horizontal line traversing the blue background. Credit: R. A. Abrahao, H. P. N. Morin, J. T. R. Pagé, A. Safari, R. W. Boyd, J. S. Lundeen" (ScitechDaily, Lasers That Cast Shadows? Physics Takes a Surprising Turn)

The question is where the black hole sends that energy. Theoretically, the black hole should get so much energy that it simply blows away. But there is something where that energy goes. 

All information that we have about the internal structures of the event horizon, the point where escaping velocity reaches the speed of light is hypothetical.

The weakness in the model of singularity is this. The singularity is where all particles and quantum fields form the structure, where those things are one entirety. That means the singularity should be smooth. If the object is totally smooth, that thing means that the interaction between the quantum fields is not visible. 

The roughness in the surface of the particle is the thing. That causes the wave that we see. If there is not a single roughness. That means there is a point that can push the wave to the quantum field. That means there must be some kind of structure in the particle. That we can see it. In models, singularity looks like a yarn ball where the superstrings are intertwined around each other. 

In some models, the center of those supermassive objects sends wave movement through their structures. That means that if there is some kind of structure like a particle or superstring radiation creates the shadow in those points. The high-power energy rays travel out from the structure. The shadow at the point of the superstring pulls radiation to the object. 

Then if all radiation flees from the point of the spin axle that thing pulls fields into it. That means that the spin stores energy into the singularity. Then if that energy flees from one point. The outcoming energy tries to fill that area and takes particles with it. Another possibility is that the energy level in the black hole rises so high that it loses the ability to interact with the 3D universe. And that means it jumps to the fourth dimension. 



"“This work could lead to the first experimental realization of photonic time crystals, propelling them into practical applications and potentially transforming industries,” says Professor Viktar Asadchy from Aalto University, Finland. Credit: Xuchen Wang / Aalto University" (ScitechDaily, Scientists Create Photonic Time Crystals That Amplify Light Exponentially).  In the same way as photonic time crystals raise the power of the light. The black holes can increase the power of gravity. 

We can think that black holes are like photonic time crystals. Photonic time crystals raise the light's energy exponentially. The same effect makes black holes raise the gravitational field's power exponentially. 

When we think about the black hole's event horizon we can see that this thing oscillates. That means the black hole acts a little bit like time crystals. The energy, or wave movement, that is trapped in the event horizon gets energy from that oscillation. 

So. The black hole pumps energy into wave movement inside its event horizon just like the time crystal pumps energy into wave movement that is in the photonic time crystal. Same way as photonic time crystals can increase the power of light or light waves exponentially the black hole can raise the power of gravity waves exponentially. 

The new stunning simulations and observations about the light and its behavior tell about the black holes. If we think that gravity is the kinetic energy that the gravitational center collects from its environment and then aims at the middle of the object, we can think. This kind of thing can be the reason for gravitation's unique ability. 

Maybe we can use this model with the neutron stars. But can we use it with black holes? Black holes are so dense that all quantum fields and subatomic particles are in one entirety called singularity. In some models, the fast-spinning singularity aims energy to its spin axle. 

But then we must realize that there are much more stronger forces than neutron stars. The transition disk that orbits around the black hole and its event horizon is much larger than people normally think. We can say that the spiral galaxy is the supermassive black hole's transition disk. 

When material and energy fall in the black hole it should follow the spiral trajectory. That means there forms electromagnetic shadows behind those particles and they pull the quantum fields inside a black hole. 

However, that shadow and extremely dense material cause the energy and material to travel to the spin axle. There forms a small vacuum at the spin poles of that thing. And those vacuums pull fields and material to the "poles" of that thing. That is one thing that can help to make about the internal structure of the black hole. 


https://scitechdaily.com/caltech-astrophysicists-flip-black-hole-theories-with-stunning-new-simulations/


https://scitechdaily.com/lasers-that-cast-shadows-physics-takes-a-surprising-turn/


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