The Mirror Universe could exist before the Big Bang

The Mirror Universe could exist before the Big Bang

Mountain Peaks in the Moonlight

Like the mountain, which is displayed in the waters of the lake, it seems that our universe once had a perfect specular reflection. This idea is now being developed by Canadian scientists after the extrapolation of universal laws before and after the Big Bang.

Physicists quite clearly represent the structure of the universe in a couple of seconds after the Big Bang, moving to the present day. Then in many aspects, fundamental physics worked the same way as today. But experts for decades arguing about what happened at the first moment, when a tiny and infinitely dense particle of matter first expanded outward.

Ontario researchers turned the idea upside down, suggesting that the universe was fundamentally symmetrical and simple at the time. Then it was mathematically extrapolated at the first moment after the Big Bang.

It made us study the possible previous Universe, which was supposed to be a mirror image of ours. That's just it would be the opposite: time went back, and the particles became antiparticles. This is not the first attempt to explore another Universe before the Big Bang, but earlier they were considering options for individual Universes, similar to ours.

Imagine that in that universe a egg was broken, represented by negatively charged antiprotons and positively charged antielectrons. Time flows so that you notice how the puddle turns into a cracked egg, which again ends up in a chicken. That is, the Universe would have gone from the explosion to the singularity of the Big Bang and exploded into ours (as if rewinding to our outer space). However, on the other hand, both universes could form in the Big Bang simultaneously back and forth in time. Such a dichotomy allows the solution of some dead-end problems for physicists. It turns out that the first second of the Universe would now be simple, allowing you to abandon ideas with multiverse and dimensions. And with dark matter it would also be much easier. You simply consider the symmetric extended view of space-time.

Researchers say that a new theory has emerged due to the fact that physicists have increasingly begun to offer new strange additions that raise more questions than answers. However, the new theory has an advantage - it can be checked. Scientists are still unable to find WIMP - the main candidate as dark matter. It may be worthwhile to turn to a new idea and consider a neutrino from a previous Universe that exploded on the other side or before ours.

The Canadian team uses the model to check on it real observations and display predictions. For example, the model shows that the lightest neutrinos should be mass free. If this is so, then you will have to radically change the view of the Universe In fact, this is an extremely simple explanation, thanks to which it will be possible to get rid of complicated guesses and the need to invent new substances and laws.

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