Multiverse offers a plausible answer to the quantity of dark energy in our universe...
Use of the holographic principle to connect to Multiuniverse...
Vilenkin and Garriga figured the entire multiverse must similarly have a holographic image living on its boundary. In the case of the multiverse, though, the boundary is not a frontier in space, but in time, infinitely far into the future.It is required to derive a measure for the multiverse by studying its boundary instead.
It turns out that zooming in on part of the boundary is equivalent to selecting different, finite slices of time in the interior of the multiverse. To see how it works, imagine you are standing in a dark room with your back against one wall and facing another wall. You switch on a flashlight, which illuminates a large oval on the far wall. As you walk towards the wall ahead, the illuminated oval shrinks. The further away you move from the back wall where you started, the smaller the area of illumination becomes. In other words, there is a clear relationship between areas on your future boundary and distance from your starting point. In a similar way, a particular area on the boundary of the multiverse is associated with a particular time inside it.
Holographic principle, which says that the physics inside a region of space-time is equivalent to the physics on the region's boundary. You can think of a black hole as equivalent to a hot gas of ordinary particles on the boundary of the universe. And since a hot gas of ordinary particles never loses information, neither can a black hole.
The lesson from the holographic picture is that no observer should ever see information disappear from the universe. If Alice is watching from a distance as an elephant falls into a black hole, she will see it approach the black hole's event horizon, at which point it is incinerated by the Hawking radiation, which sends it streaming back towards her as a sad, scrambled heap of ashes. Meanwhile, Bob, who falls into the black hole along with the elephant, sees the elephant cross the horizon safely, and live happily for some time before hitting the singularity in the black hole's core.
According to the holographic principle, both stories must be true. But how can the elephant be in a heap of ashes outside the horizon and alive and well inside the black hole? It would seem the elephant has been cloned, but the laws of physics prohibit such duplication of information.
Cosmologist Raphael Bousso explains the paradox results from the mistaken idea that we can describe what's happening both inside and outside the horizon simultaneously, when in reality no single observer can ever see both at once. In other words, for physics to make sense, you must restrict your description of the universe to what a single observer can see. It's a profoundly different approach from the old idea that we can describe the entire universe from an observerless, God's-eye-view.
Talking about the multiverse as if it can all be directly observed at once, Bousso says, leads to an even greater nonsense than trying to simultaneously describe what's happening inside and outside a black hole horizon.
This also means that there is no need of God's eye view approach in Multi universe (at Infinity) due to space-time dimentions.
Such steps have been define bewtween Dvaita and Advaita.
As science is getting introvert to person from global (dvaita)
At advaita relativity does not exists and hence view is not required.
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