Distance, time and the relationship between black holes and worm holes have been studied for a long time. Physicists in Bulgaria have opened up new directions in research on this subject.
Researchers at the University of Bulgaria in Sofia have proposed a new model. They say that, according to Einstein’s general theory, the spacetime background of the universe can create deep gravitational holes.
No object can escape from this gravitational hole. There forms a shape like a mountain peak to the top of which no object can reach. No object can come close to this mountain peak. However, different characteristics were observed in radiation.
In 1930, Einstein’s colleague Nathan Razon showed that there could be no reason why the curved part of a black hole should not connect with the white hole’s apex.
Distance and time don’t work the way we think. Matter can enter the cosmos at one end of any cosmic tube and exit at the other.
Using powerful telescopes, physicists have tried to model the magnetosphere of a worm hole. Also, detailed research on how it works is underway.
It is quite difficult to distinguish between the chaotic disk-like polarized part of a black hole and the smoky part of a worm hole. It is said that a wormhole is very likely to be at the end of a black hole. But there will be no easy way to find out.
If physicists are lucky, it will be possible to make a fine distinction between worm holes and black holes with the help of gravitational lensing. If scientists can find the right angle and find out which direction the light is entering, it will add a new dimension to this research.
However, researchers want to develop a model that can detect wormholes in the night sky without the help of lenses or perfect angles. If successful, Sofia University physicists’ efforts will lead to new ways of explaining the universe.