Researchers At Large Hadron Collider Are Confident To Make Contact With Parallel Universe In Days

The astoundingly complex LHC “atom smasher” at the CERN center in Geneva, Switzerland, are fired up to its maximum energy levels ever in an endeavor to identify - or perhaps generate - tiny black holes.

If successful a very new universe is going to be exposed – modifying completely not only the physics books but the philosophy books too. 

It is even probable that gravity from our own universe may “transfer” into this parallel universe, researchers at the LHC say. The experiment is assured to accentuate alarmist critics of the LHC, many of whom initially warned the high energy particle collider would start the top of our universe with the making a part of its own. But up to now Geneva stays intact and securely outside the event horizon.

No doubt the LHC has been outstandingly successful. First researchers proved the existence of the mysterious Higgs boson “God particle” - a key building block of the cosmos - and it's seemingly well on the thanks to revealing ‘dark matter’ - a previously untraceable theoretical prospect that's now believed to form up the foremost of matter within the universe. But next week’s experimentation is reflected to be a game-changer. Mir Faizal, one in every of the three-strong group of physicists behind this experiment, said: “Just as many parallel sheets of paper, which are two-dimensional objects [breadth and length] can exist during a dimension [height], parallel universes can even exist in higher dimensions.”

“We predict that gravity can leak into extra dimensions, and if it does, then miniature black holes are produced at the LHC. Normally, when people consider the multiverse, they think about the many-worlds interpretation of quantum physics, where every possibility is actualized. This can not be tested so it's a philosophy and not science. this is often not what we mean by parallel universes. What we mean is real universes in extra dimensions. “As gravity can effuse of our universe into the additional dimensions, such a model may be tested by the detection of mini black holes at the LHC.”

“We have calculated the energy at which we expect to detect these mini black holes in ‘gravity's rainbow’ [a new scientific theory].”

“If we do detect mini black holes at this energy, then we are going to know that both gravity's rainbow and additional dimensions are correct."

When the LHC is fired up the energy is calculated in Tera electron volts – a TeV is 1,000,000,000,000, or one trillion, electron Volts. Up to now, the LHC has sought for mini black holes at energy levels below 5.3 TeV. But the foremost recent study says this is often too low.

Instead, the model forecasts that black holes might form at energy levels of no but 9.5 TeV in six dimensions and 11.9 TeV in 10 dimensions.