NEW EVIDENCE SUGGESTS THAT WE ARE LIVING IN A SIMULATED REALITY
Physicists say they may have proved that the universe is a PC reproduction.
How? They made a PC reenactment of the universe. Furthermore, it looks similar to us.
A since quite a while ago proposed idea try, set forward by the two scholars and pop culture, calls attention to that any human progress of adequate size and insight would, in the end, make a recreation universe if a wonder such as this were conceivable.
What’s more, since there would along these lines be numerous more reenactments (inside recreations, inside reproductions) than genuine universes, it is in this way probably that our reality is manufactured.
“The problem with all simulations is that the laws of physics, which appear continuous, have to be superimposed onto a discrete three-dimensional lattice which advances in steps of time.”
Presently a group of scientists at the University of Bonn in Germany drove by Silas Beane say they have proved this might be valid.
In a paper named ‘Requirements on the Universe as a Numerical Simulation’, they bring up that present reproduction of the universe – which do exist, however, which is to a great degree feeble and little – normally put confines on physical laws.
What that basically means is that by just being a simulation, the computer would put limits on, for instance, the energy that particles can have within the program.
These limits would be experienced by those living within the sim – and as it turns out, something which looks just like these limits do in fact exist.
For instance, something is known as the Greisen-Zatsepin-Kuzmin, or GZK cut off, is an apparent boundary of the energy that cosmic ray particles can have. This is caused by interaction with cosmic background radiation. But Beane and co’s paper argues that the pattern of this rule mirrors what you might expect from a computer simulation.
Naturally, at this point the science becomes pretty tricky to wade through – and we would advise you read the paper itself to try and get the full detail of the idea.
But the basic impression is an intriguing one.
Like a prisoner in a pitch-black cell, we may never be able to see the ‘walls’ of our prison — but through physics, we may be able to reach out and touch them.