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The holographic principle states that the entropy of ordinary mass (not just black holes) is also proportional to surface area and not volume; that volume itself is illusory and the universe is really a hologram which is isomorphic to the information "inscribed" on the surface of its boundary. [10]
Michael Coleman Talbot (September 29, 1953 – May 27, 1992) [1] was an American author of fiction and non-fiction. He wrote several books highlighting parallels between ancient mysticism and quantum mechanics, and espousing a theoretical model of reality that suggests the physical universe is akin to a hologram based on the research and conclusions of David Bohm and Karl H. Pribram. [2]
The quantum holographic/quantum gravitation model was developed by Dejan Rakovic and resembles other holographic theories of consciousness, but Rakovic theorizes that transitional and altered states of consciousness depend on Einstein-Rosen space-time bridges or wormholes. [26]
Holographic portraiture often resorts to a non-holographic intermediate imaging procedure, to avoid the dangerous high-powered pulsed lasers which would be needed to optically "freeze" moving subjects as perfectly as the extremely motion-intolerant holographic recording process requires. Early holography required high-power and expensive lasers.
The holographic principle and its realization in string theory through the AdS/CFT correspondence have helped elucidate the mysteries of black holes suggested by Hawking's work and are believed to provide a resolution of the black hole information paradox. [41]
Holographic theory may refer to: The holographic principle - a concept in physics whereby a space is considered as a hologram of n-1 dimensions. The holographic paradigm - a concept in quantum mysticism, wherein the holographic principle is conjectured to be fundamental to physics, and by extension to human cognition and perception.
A holographic image can also be obtained using a different laser beam configuration to the original recording object beam, but the reconstructed image will not match the original exactly. [2]: Section 2.3 When a laser is used to reconstruct the hologram, the image is speckled just as the original image will have been.
In the 1990s physicists Leonard Susskind and Nobel prize winner Gerard 't Hooft suggested that the same principle might apply to the universe as a whole. Our everyday experience might itself be a holographic projection of physical processes that take place on a distant, 2D surface."