The event horizon is a standing gravitational wave.

The event horizon is the point around the black hole where escape velocity reaches the speed of light. But what is the event horizon, and what it's form is? If we think. Gravitational waves are reflecting wave movement the source is in the middle of the black hole, we can say that the event horizon is the impact point, where radiation that drops behind the event horizon collide with gravitational radiation that comes from inside the black hole. That forms the standing gravitational wave. 

The black hole's gravitational field is enormous. Even light cannot escape from those most extreme objects in the universe. The point where escaping velocity reaches the speed of light is called the event horizon. The black holes are forming gravitational waves. That thing means that there is wave movement in the black hole. But there still are the waves in the black hole. 

Image 2 introduces how seismic waves travel inside Earth. All wave movement travels similarly. Seismic waves form on Earth and other planets in similar forms. And gravitation is also wave movement. 

So we can think that gravitational waves can form similar forms in black holes and neutron stars as they form in less extreme objects. The requirement that the wave's form is similar to Earth's is there is a denser object inside the larger object. Or the speed of wave movement must be different than around that denser object. 

Image 3 A

Image 3 B

Image 4 C

Image 4 D

Images 4 (C and D) S waves follow a spiral or rotational trajectory. The Coriolis force on a black hole is extremely powerful. And it can turn gravitational waves or gravitational superstrings into rope-looking forms. When the maser-effect impacts those superstring clusters they can turn into wormholes. 

Those waves act like P and S waves. That means there is a series of gravitational waves on the event horizon and inside it that form horizontally. Even in the strongest gravitational fields, horizontal movement is possible. 

When we look at the S-wave's model the impacting energy pike that comes from the black hole's nucleus can form the tornado-shaped structure. So could that S-wave cause a gravitational tornado that lets gamma and X-rays travel out from the black hole's poles? 

In that form the S-wave forms a channel that allows the wave movement to travel out from the black hole. If that kind of radiation channel exists. There is a massive maser effect in that thing. The side-coming gravitational waves carry another wave movement that increases the power of the radiation that travels through that tornado. 

That gravitational tornado can form S-waves that impact other horizontal waves. And then that thing causes effects that gravitational waves impact together and form gravitational hills on the black hole. 

When wave movement hits a black hole it should interact with that object as it travels on Earth. So part of the wave movement travels past the black hole's nucleus. If we use the model that wave movement reflects to form the black hole's nucleus we can understand why gravitation waves can escape from the black hole. 

The side-coming wave movement allows the wave movement. That falls in the black hole can ride with reflecting waves. When reflecting wave impacts with falling wave movement it forms a standing wave. If outcoming radiation cannot break that barrier standing waveforms incoming radiation pushes the standing wave out from the black hole. That means we can think that the event horizon is like the barrier of gravitational waves. As I wrote at the beginning of this text. 

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

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

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

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