The most interesting and credible theory of recent times is one theory which shows that the universe is a hologram. The new study, led by the Maldacena team of Kyoto University and the National Science Foundation, published by the Cornell University Library on Nov. 21, 2013, confirmed that they have proven the truth of the universe's concept of holographic only.
If we live in a hologram and make all those thoughts only a normal universe, there is no better way to know or prove that we are in the hologram and how can they happen? Comparison of the hologram of the universe is often made just like the hologram in general, where this theory proves the universe is built in the same way and the other dimensions have a higher code. In holograms generally there is only one side of the real bagain, where the lower surface is a hologram code (not real). In other words, if you see the feet on the hologram then we can not touch it because this dimension is just a hologram. It is this foundation that proves the existence of another dimension that is exactly the same as the nature that exists today.
Universe Hologram, Black Quantum Quadrant Paradox
In this study, the Maldacena team provided quantitative evidence in measuring the duality of garvitation at the level of quantum gravity. The simulation of double gauge theory in parameters corresponds to the quantum black hole, where the results are exactly the predictions of evaporation in the black hole including quantum gravity correction. The Double Gauge theory gives a complete picture of the quantum nature of the evaporation of black holes, in other words that humans actually live in the hologram of the universe.
black hole, universe
The discovery of the fact that black holes emit particles will ultimately reveal Hawking's theory of paradox. This view of paradox has led to a long debate since the basic claims of mechanical law can be violated. Several new analyzes have proposed the use of superstring theory, a consistent quantum theory of gravity, if only the quantum hole quantum hologram description is based on the duality of the measuring instrument, the information is not lost and quantum mechanics remain valid.
In a study by Masanori Hanada, Yoshifumi Hyakutake, Goro Ishiki and Jun Nishimura, they were scientists who first measured the duality of gravity on a quantum-level computer. The black hole obtained at the Monte Carlo simulation produces quantum gravity, where black holes evaporate, this result opens new perspectives on quantum gravity because everyone can make quantum black hole simulations through Gauge double theory.
D-Branes
In 1974, Hawking had realized that black holes should emit perfect black particles. This is due to the quantum effects in the space around and that the black hole eventually has to evaporate completely. This finding was made more accurate by Bekenstein in the close analogy between the black hole law and thermodynamics, but led to a long scientific debate about missing paradoxical information. For example, if we throw the paper into a black hole, while the black hole evaporates (the paper disappears), everything we observe is black radiation, then the information (paper) in the paper is lost forever. Whereas the legal basis of quantum mechanics asserts that should the initial information should not be lost.
The mystery of Hawking's argument continues to raise many question marks, whether the laws of mechanics should be violated or how to modify the quantum effects of garvitation? In overcoming this paradox, it is necessary to construct a microscopic portion of the black hole and provide a statistical explanation called the Black Holes Entropy Mechanics. It does seem quite heavy in the practice of general relativity because the theorem states that black holes are characterized by several parameters.
In the 1990s, superstring theory managed to explain the entropy of a black hole (a special class of black holes) that did not evaporate. Superstring theory not only contains strings but also solitants called D-Brane as fundamental matter. The Bound part of D-Brand is so heavy that it looks like the same black hole. The bonded part can be interpreted as a microscopic part, and the number of passages explains precisely about the entropy of the black hole, but the paradox remains since full evaporation information occurs in the black hole.
To resolve the paradox, Maldacena and his team measure with the suspicion of gravity duality that can be viewed as a complete realization of the holographic principle of the universe proposed by Hoft and Susskind. This assumption is related to the various black holes created from D-Brane in superstring theory and reinforced by Gauge theory, where later no material loss of information.
So, if we still think still alive in the universe huh