Key idea: According to two researchers from the University of Maryland, while studying layers of graphene (made with hexagons of carbon), the found repeating patterns that changed the way electricity moves. The explanation for that fenomenon is the presence of a second reality.
Original author and publication date: Lonnie Lee Hood – May 15, 2022
Futurizonte Editor’s Note: If there is a second reality, chances are that there are many more realities. After all, we are multidimensional beings.
From the article:
For those of us worried the world somehow got trapped in the wrong timeline, relax — scientists are now saying there might actually be two realities.
Two researchers from the University of Maryland released their findings in a study earlier this month in the journal Physical Review Research. According to a university press release, though, a second reality isn’t exactly what they set out to find. While studying layers of graphene, made with hexagons of carbon, the found repeating patterns that changed the way electricity moves.
Based on their research, the pair think they accidentally found a clue that could explain some of our current reality’s mysteries. According to the university’s media arm, they realized that experiments on the electrical properties of stacked sheets of graphene produced results that looked like little universes and that the underlying causes could apply to other areas of physics. In stacks of graphene, electricity changes behavior when two sheets interact, so the two hypothesize that unique physics could similarly emerge from interacting layers elsewhere—perhaps across the entire universe.
“In a sense, it’s almost suspicious that it works so well by naturally ‘predicting’ fundamental features of our universe such as inflation,” study co-author Victor Galitski said in a statement.
It’s not uncommon for physicists to question the way our universe works. Even the best-established theory can be called into question and should be if we hope to better understand the world we live in — as well as potential ones we haven’t been to yet.
“We haven’t explored all the effects — that’s a hard thing to do,” co-author Alireza Parhizkar said in the university release.
Parhizkar also said that the findings could solve many outstanding questions scientists have about conflicting or confusing laws of physics.
No word yet on how we get to the proverbial other side, though.