The mystery of black holes is why they twinkle. Why black holes don't send gravitational waves all the time? That is one of the most interesting things about black holes. Black holes are extreme objects in the universe. And they should be stable. But there are moments when they send stronger gravitational waves than otherwise.
There is the possibility that those twinkles are the reason for the case that black holes are sometimes in an electromagnetic vacuum. And the reason for that is that black hole pulls mass too fast. That thing causes an effect that black hole starts to send that radiation.
But there is the possibility that there are particle pairs in the black hole. Those particle pairs form warp channels. Gravitational waves travel in those channels.
In that model, there is the possibility that the gravitational waves that we can observe are forming when those particle pairs are orbiting each other. Those particle pairs act as the antennas that send gravitational pikes outside the black hole.
Or maybe there is some kind of WARP bubbles or points where gravitational strings inside the black hole are not connecting. That makes the gravitational vacuum points in the black hole. And those vacuum points are causing a situation that the gravitational waves in the black hole are not following spiral tracks.
When those gravitational waves are touching each other in the black hole. That can cause the situation. There the Schwinger effect forms particle pairs. That means those particle pairs could be mysterious gravitons. If there is a gravitational tornado inside the black hole.
The other gravitational waves are giving radiation emission to that tornado. That gives more power to that standing wave. That could explain why the black hole could send radiation pikes from its poles. The question is what is the point, where those waves are leaving? Is the source of the radiation that a black hole sends behind or at the front of the event horizon.
The X- and gamma-ray impulses in the black hole's poles are causing questions about the speed of light in the black hole. Do researchers also hope that black holes give answers for the things like how many dimensions there are? Are there three in time and one in material?
And maybe black holes are telling someday what is the form of time. Is time for some kind of wave movement that takes bites from the superstrings that are forming material? Or is time only part of the material?
https://www.sciencealert.com/astronomers-studied-more-than-5000-black-holes-to-figure-out-why-they-twinkle
https://shorttextsofoldscholars.blogspot.com/
Comments
Post a Comment