The Beginning

[Guest]

“I'd far rather be happy than right any day" --- Douglas Adams

[baa99]

http://www.youtube.com/watch?v=_1K1iJxPJ7o

[Coss]

Ohhhhhh, there was me thinking Coss, was super intelligent or something, and knowing about science and quantum physics, never mind, i'll look up 42 hitchhikers guide to the galaxy instead ..

 

But I am, especially the something... and I do, especially popular science culture...

 

The "Theory of the 42s" is a theory of energy that takes on the form of matter through determinate patterns within a ten-dimensional space-time structure: nine spatial dimensions and time. There is no absolute time, position or direction for observation; it is only the comparative difference of the separate dimensions in time that has meaning...

 

If you translate this through a Babel Fish the wordy bits are simplified to '42'

[Guest]

Living in giant hologram .. who are these people they are too clever

 

http://motherboard.v..._source=popular

 

If a friend told you that we were all living in a giant hologram, you’d probably tell him to lay off the kush. But incredibly, physicists across the world are thinking the same thing: That what we perceive to be a three-dimensional universe might just be the image of a two-dimensional one, projected across a massive cosmic horizon.

 

Yes, it sounds more than a little insane. The 3D nature of our world is as fundamental to our sense of reality as the fact that time runs forward. And yet some researchers believe that contradictions between Einstein’s theory of relativity and quantum mechanics might be reconciled if every three-dimensional object we know and cherish is a projection of tiny, subatomic bytes of information stored in a two-dimensional Flatland.

 

“If this is true, it’s a really important insight,†Daniel Grumiller, a theoretical physicist at the Vienna University of Technology, told me over the phone. Grumiller, along with physicists Max Riegler, Arjun Bagchi and Rudranil Basu, recently published the very first study offering evidence that the so-called “holographic principleâ€â€”that certain 3D spaces can be mathematically reduced to 2D projections—might describe our universe.

 

If you asked anyone twenty years ago how many dimensions our world has, most of us would answer 'three spatial dimensions plus time,'" he said. "The holographic principle would mean that this is actually a matter of perspective.â€

The holographic principle was first postulated over 20 years ago as a possible solution to Stephen Hawking’s famous “information paradox.†(The paradox is essentially that black holes appear to swallow information, which, according to quantum theory, is impossible.) But while the principle was never mathematically formalized for black holes, theoretical physicist Juan Maldacena demonstrated several years later that holography did indeed hold for a theoretical type of space called anti-de Sitter space. Unlike the space in our universe, which is relatively flat on cosmic scales, anti-de Sitter space as described by mathematicians curves inward like a saddle.

 

If this depiction of space is correct, then like any computer, there is an inherent limit to the universe’s data storage and processing capacity.

 

“Anti-de Sitter space is not directly relevant to our universe, but it allows us to perform calculations that would otherwise be very difficult if not impossible,†Grumiller said.

Within this theoretical space, Maldacena showed that two sets of physical equations mapped perfectly onto each other: The equations of gravitational theory, and those of quantum field theory. This correspondence was totally unexpected, because while gravity is described in three spatial dimensions, quantum field theory requires only two. That the laws of physics produced identical results two or three dimensions pointed to anti-de Sitter-space’s holographic nature.

“This was the first instance where somebody explicitly showed how holography works,†Grumiller told me. “But given that our universe is not anti-de Sitter space—it’s approximately flat at large scales—it’s interesting to ask whether the holographic principle applies to flat space, as well.â€

Depiction of anti-de Sitter space. Image: Wikimedia

To demonstrate that our universe can indeed be seen as a hologram, physical quantities would have to be calculated using both quantum field theory and gravitational theory in “flat†space, and the results would have to match. Grumiller decided to see whether one key feature of quantum mechanics—quantum entanglement—could be replicated using gravitational theory.

 

When two quantum particles are entangled, they cannot be described individually, but instead form a single quantum “object,†even if they’re far apart. There is a measure that describes how entangled a quantum system is, known as the “entropy of entanglement.†After several years of work, Grumiller and his colleagues managed to show that this entropy takes on exactly the same value when calculated in gravitational theory and quantum field theory for spaces like our universe.

 

"This calculation affirms our assumption that the holographic principle can also be realized in flat spaces,†said Riegler in a press release. “It is evidence for the validity of this correspondence in our universe."