The black holes and time reverse.

 The black holes and time reverse. 

If we think that black holes travel in the opposite direction in time than other universes because the escape velocity in the event horizon is higher than the speed of light. We must realize that black holes can also give a model of why it's so hard to transmit data from the past to the future. The redshift outside the black hole’s event horizon is extreme. The black hole stretches light. And that means the black hole seems to be at a longer distance than it really is. The gravitational redshift is the thing that stretches space and time. But then. We can go inside the event horizon. 

And ask what makes particles so hard to escape from the black hole, we face an interesting thing. In the event horizon, the wavelength turns extremely short because the outgoing field impacts that information. But outside the event horizon, the gravity stretches the wave movement. 

When particles and wave movement come through the event horizon, that is the point where the escaping velocity reaches the speed of light. This means that for escaping the black hole, the particle must get a speed that is higher than the speed of light. 

The outgoing wave movement impacts particles that are just below the event horizon. There is a possibility that particles and wave movement start to rotate the center of the black hole just below the event horizon. And it's possible that those particles can reflect radiation that attempts to get out from the event horizon. The wavelength of the wave movement that tries to escape from the black hole becomes extremely short. The outgoing wave movement presses the incoming wave movement into the black hole. When the wave turns shorter, it turns higher. And there is the quantum show behind it. 

 But if some kind of radiation tries to escape from the event horizon, that thing faces an interesting effect. The wave that turns very short inside the black hole will stretch outside it. And the end of the wave is in the event horizon. That pulls energy out from that wave that falls back into the event horizon. But then we can see the event horizon. If the energy level of that point is higher than the energy level in the event horizon, that thing presses all particles back to the black hole. 

The shape of a black hole is the whirl or whirling pothole in the quantum fields or spacetime. That whirl can take information to the point where a black hole forms. 

Then we can go to the time travel paradox: why is it so hard to get information from the future to the past? 

The model goes like this. Time is the dimension that flows from the beginning of time to the ultimate end of time. The energy level in the future is lower than the energy level in the past. The reason why it's so hard to get information from the future is that. When information travels against the time flow in a wave form, that time flow will turn that wave shorter. So the information wave that comes from the future will be very short. The idea is the same as putting a serpentine to the river. 

From the upper river that is past the serpentine, it keeps its form or stretches. But if the serpentine tries to travel back to the upper flow, it turns short or it warps. If we connect that information wave to the higher energy particle, which allows the information to travel against time. We face one thing. That time flow will pull the serpentine straight. Another problem is that if an extremely high mass object is connected to information and travels in time flow, it’s possible that it turns into another black hole. And information cannot be reached until the black hole is vaporized. 

There is an interesting model that the hypothetical civilization at the end of time sends an information ball to the past. They create a black hole that travels to the past. That civilization will create massive data storage and then lock those archives into the black hole. That information travels to the beginning of time. The idea is that all black holes can travel in time. But they cannot create information from nowhere. They store information that they collect from their trip to the point where the black hole’s existence began. But the theoretical artificial black hole at the end of time will not include information that is naturally stored in it. But it can transport a library or archive to the past.