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The IllustrisTNG project
By Unobscured Vision
So it's not so much a "Matrix" as it is "Quantum Superposition of matter". The illusion of distance. That's really, really interesting.
Take one of those old Projection televisions from the late 70's and early 80's ... remember, with the three different-coloured emitters that you were never to look directly into? The actual image was generated on those emitters, but we saw the combined image on that funny curved screen. The new findings say the Universe works something like that -- we're seeing a projection (via Quantum Superposition) onto Curved Space (the "Screen").
The search is on for Parallel Universes at the Large Hadron Collider - and here's how Physicists plan to look for them.By Unobscured Vision
Ooh, that should be a very interesting round of experimentation and testing, whether they find something or not. Even if they don't, they'll probably unlock a few new fundamental subatomic particles and quite a few interactions that haven't been seen before.
On the other hand, if they do get the "mini black holes", the energy they find them at will be the most telling of all. Most Theoretical Physicists agree that 10 Dimensions is the maximum, but if they find more, then the energies will tell them that too ...
Exciting times, folks.
Washington (AFP) - American astrophysicists who announced just months ago what they deemed a breakthrough in confirming how the universe was born now admit they may have got it wrong.
The team said it had identified gravitational waves that apparently rippled through space right after the Big Bang.
If proven to be correctly identified, these waves -- predicted in Albert Einstein's theory of relativity -- would confirm the rapid and violent growth spurt of the universe in the first fraction of a second marking its existence, 13.8 billion years ago.
The apparent first direct evidence of such so-called cosmic inflation -- a theory that the universe expanded by 100 trillion trillion times in barely the blink of an eye -- was announced in March by experts at the Harvard-Smithsonian Center for Astrophysics.
The detection was made with the help of a telescope called BICEP2, stationed at the South Pole.
After weeks in which they avoided the media, the team published its work Thursday in the US journal Physical Review Letters.
In a summary, the team said their models "are not sufficiently constrained by external public data to exclude the possibility of dust emission bright enough to explain the entire excess signal," as stated by other scientists who questioned their conclusion.
The team was led by astrophysicist John Kovac of Harvard.
BICEP2 stands for Background Imaging of Cosmic Extragalactic Polarization.
"Detecting this signal is one of the most important goals in cosmology today," Kovac, leader of the BICEP2 collaboration at the Harvard-Smithsonian Center for Astrophysics, said back in March.
By observing the cosmic microwave background, or a faint glow left over from the Big Bang, the scientists said small fluctuations gave them new clues about the conditions in the early universe.